Untitled

Untitled
Linetronic Technologies SA
via Onorio Longhi 2
6864 Arzo
Switzerland
tel. +41 91 630 07 03
fax +41 91 630 07 19
www.lin-tech.ch
[email protected]
1 Summary
Automatic analysers
LabLink’s software feature
Manual
and semi-automatic analysers
5
Cold Behaviour
Cloud Point
NewLab 100
6
CFPP
NewLab 200
8
Pour Point
NewLab 300
10
Freezing Point
NewLab 410
12
Cloud and Pour Point
NewLab 1300
14
NewLab Range Table
16
Some examples
of different combinations
Oillab Range
OilLab 100
OilLab 200
OilLab 300
OilLab 410
OilLab 1300
Filter Plugging Tendency
NewLab 225
18
20
21
LTFT, Low-Temperature Flow Test
NewLab 226
22
Ring and Ball
OilLab 500
24
Noack
OilLab 580
26
Flash Range
Pensky Martens
OilLab 600
R.E.C.C.
Rapid Equilibrium Closed Cup
OilLab 620
28
30
Abel
OilLab 650
32
Cleveland
OilLab 670
34
Tag
OilLab 690
36
ASVP
38
Air Satured Vapour Pressure
OilLab 710
Thermofat
Thermo Six - Thermo Twin
40
Online Range
42
New-on-line 100
New-on-line 300
New-on-line 700
Aniline
- A niline Point
LT/AP-215000-A/M
LT/AP-215000-B/M
LT/AP-215000-C/M
LT/AP-215000-D/M
Cold Behaviours
48
-C
old Filter Plugging Point
LT/CF-254000/M
Bitumen
➔ Viscosimetry
- B .R.T.A. Viscometer
LT/BV-14000-1/M
LT/BV-14000-2/M
LT/BV-14000-3/M
LT/BV-14000-4/M
- D istillation of Cut-back
Asphaltic Products
LT/CB-106000/M
- D uctilometer
LT/DU-73000/M
LT/DU-73000-R/M
➔ Viscosimetry
- E ngler Viscometer
LT/EV-26000/M
LT/EV-27000-1/M
LT/EV-27000-2/M
-C
loud - Pour Point
Refrigerator
LT/RB-53100/M
LT/RB-54000/M
LT/RB-55000/M
119
50
50
-F
reezing Point
of Aviation Fuels
LT/FP-237000/M
LT/FP-237500/ME
LT/FP-237500-2/ME
62
63
-T
ag Closed
LT/TC-93000/M
78
➔ LPG
-C
opper Corrosion by LPG 81
LT/LPG-169000/M
-T
ag Open
LT/TO-95000/M
78
-C
opper / Silver Corrosion
LT/CS-144000/M
65
➔ Oxidation
- C orrosiveness and Oxidation
Stability Bath
116
LT/CO-199000/M
-M
etals Corrosion
of Engine Coolants
LT/MC-233000/M
LT/MC-233000-4/M
66
-T
hin-Film Oven Test
LT/TF-257000/M
-F
oaming Tendencies
of Engine Coolants
LT/FT-191500/M
- B oiling Point
of Engine Coolants
LT/BP-232000/M
56
57
-F
oaming Characteristics
of Lubricating Oils
LT/FB-190000/M
LT/FB-191000/M
-H
erschel Emulsifying
LT/HE-185000/M
LT/HE-185000-A/M
LT/HE-186000/M
67
68
68
Centrifuge
- C entrifuge
and Heated Centrifuge
LT/CF-122000/M
LT/CF-122000-R/M
Densimetry
58
Gum - Rubber
-E
vaporation Bath
LT/EB-241000/M
LT/EB-242000/M
79
-S
cott Cylinder
LT/SC-239000/M
79
Hydrometers
- H ydrometers
Specific Gravity
80
LPG
Demulsibility and Foaming
-D
emulsibility Characteristics
of Lubricating Oils
67
LT/DA-187000/M
-H
eat of Combustion
LT/MB-206000/M
LT/CV-207000/M
LT/CV-207000-S/M
Flash Point
64
62
-R
olling Thin-Film Oven Test 54
LT/RT-255000-ASTM/M
LT/RT-255000-EN/M
Calorimetry
71
77
51 55
-V
acuum Distillation
LT/VD-107000/M
-P
ensky Martens
LT/PM-75500/M
LT/PM-75000/C
LT/PM-75000/DC
-C
ast Iron Corrosion
LT/CIR-221000/M
-R
ing and Ball:
Softening Point of Bitumen 52
LT/RB-217000-B/M
71
76
-F
raass: Breaking Point
of Bitumen
LT/FA-252000/M
53
-S
olvent Distiller
LT/SD-260000/M
- C leveland
LT/CO-88000/M
LT/CO-89000/M
LT/CO-89000/DC
-S
olidification Point
of Benzene
LT/SP-237100/M
64
-S
aybolt Chromometer
LT/SC-208000/M
LT/SC-208000/PAR/M
100 72
74
120 Colourimetry
-L
oss on Heating of Oils
and Asphaltic Compounds 53
LT/LH-256000/M-G/F
-D
istillation Units
LT/HU-99000-A/M
LT/CU-99000-B/M
LT/DD-100000/M
LT/FD-100500/M
LT/RD-100600/M
LT/RDS-900/SA
LT/DR-102000/M
- A bel
LT/AF-82000/M
LT/AF-82200/M
LT/AF-82200/DC
51 Corrosion
-R
esidue by Distillation LT/RD-271000/M
60
-F
reezing Point of Antifreeze 62
LT/FP-238000/M
LT/FP-238000-2/M
LT/FP-238500/M
-F
loat Test
for Bituminous Materials
LT/FT-270000/M
➔ Penetration
- P enetration
of Bituminous Materials
LT/P-65000/M
LT/P-66000/M
Distillation
-D
ensimetry Bath
LT/DB-55100/M
70
-S
chilling Effusiometer
LT/SE-231000/M
70
-C
opper Corrosion by LPG 81
LT/LPG-169000/M
-D
ensity of LPG
and of Light Hydrocarbons 82
LT/HA-175000/M
LT/CB-178000/M
-G
age Vapour Pressure
of LPG
83
LT/VP-174000-A -B -C/M
-H
ydrogen Sulfide in LPG
LT/HS-230000/M
84
- LPG Relative Purity
LT/WT-170000/M
84
-S
ampling and Gauging
Tanks + Valves
LT/SC-163100/M
LT/CF-167000/M
LT/LT-168000/M
LT/SV-184000/M
85
2 Summary
Lubricating Greases and Oils
-C
orrosion Preventive
Properties
of Lubricating Greases
LT/CG-205800/M
-D
ropping Point
of Lubricating Grease
LT/DP-211000/M
LT/DP-211500/M
-D
rop Point Ubbelhode
LT/DP-212000/M
LT/DP-213000/M
-E
stimation Particles
in Greases
LT/EP-204000/M
-E
vaporation Loss
LT/EC-205000/M
86
87
88
88
88
-G
rease Worker, Consistency
of Lubricating Greases
89
LT/GW-67000/M
LT/GW-68000/M
LT/GW-69000/M
LT/GW-69000-2/M
LT/GW-70000-1/M
LT/GW-70000-2/M
-O
il Separation
from Lubricating Grease
LT/GS-203100/M
LT/GS-203200/M
LT/GS-203300/M
-O
xidation Stability
of Lubricating Greases
LT/OS-202000/M
LT/OS-202000-B/M
-R
oll Stability
LT/RS-205700/M
➔ Penetration
-R
oll Stability,
Cone Penetration
LT/P-65000/M
LT/P-66000/M
➔ Sulfur
-S
ulfur and Chlorine
in Petroleum Products
LT/HC-207500/M
-T
orque of Greases
LT/GR-214500/M
90
➔ Lubricating Greases and Oils
- O xidation Stability by the
Oxygen Bomb Method
91
LT/OS-202000/M
LT/OS-202000-B/M
-O
xidation Stability
of Mineral Insulating Oil
LT/OSX-198000/M
97
-O
xidation Stability:
RBOT and TFOUT Bath
LT/OS-197000/M
98
Penetration
-P
enetration of Bituminous
Material, Grease…
100
LT/P-65000/M
LT/P-66000/M
91
92 100
141
92
93
-A
sh Determination
LT/MF-272000/M
102
-A
romatic Hydrocarbon in
Gasolines by Adsorption 102
LT/AH-229000/M
- C onradson
Carbon Residues
LT/CCR-96000/M
LT/CCR-97000/M
➔ Gum - Rubber
- E vaporation Bath
LT/EB-241000/M
LT/EB-242000/M
-F
luorescent Indicator
Adsorption FIA
LT/FA-225000-S/M
LT/FA-225000-P/M
LT/FA-224000-S/M
LT/FA-224000-P/M
-L
ead, Acid
and Salt Content
LT/EA-244000/M
103
103
79
104
-C
orrosiveness and Oxidation
Stability Bath
94
LT/CO-199000/M
-O
xidation Stability
LT/OX-192000/M
95
-O
xidation Stability (Cigre)
LT/OS-193000/M
LT/OC-198500/M
94
-H
umidity Cabinet
LT/HC-250000/M
- R ust-preventing
Characteristics
LT/RP-194000-3/M
LT/RP-194000-4/M
LT/RP-194000-6/M
110
109
Sediments
-P
articulate Contamination 111
LT/PC-155000/M
LT/PC-156000/M
-S
ediment in Crude and
Fuel Oils by Extraction
LT/SE-113000/M
111
-T
otal Sediment Tester
in Residual Fuels
LT/TST-115200/M
112
-C
arbon Dioxide (Co 2)
Oxygen (O 2) Apparatus
LT/CD-150000/M
LT/CD-151000/M
115
-S
ulfur and Chlorine
in Petroleum Products
LT/HC-207500/M
113
-S
ulfur in Petroleum Oils,
Quartz-tube Method
LT/QT-146000/M
114
-S
ulfur in Petroleum Products,
Lamp Method
114
LT/SL-149000/M
LT/SL-149100/M
LT/SL-152000/M
LT/SL-153000/M
LT/SL-154000/M
Thermometers
- A STM Thermometers
- IP Thermometers
131
132
Vapour Pressure
105
➔ Oxidation
- O xidation Stability of Gasoline
and Aviation Fuels
96
LT/OS-201000-2/M
LT/OS-201000-4/M
-P
ona - Depentanization
of Gasoline and Naphtha 105
LT/PO-228000/M
Oxidation
Rust
Sulfur
Residues
-A
sphaltenes Extraction
LT/AA-114000/M
-W
ater Washout Characteristics
of Lubricating Greases
93
LT/WW-205600/M
-W
heel Bearing Greases
LT/WB-205300/M
-O
xidation Stability of Gasoline
and Aviation Fuels
96
LT/OS-201000-2/M
LT/OS-201000-4/M
-R
amsbottom Carbon Residue
of Petroleum Products
106
LT/RCR-98000/M
-S
moke Point of Kerosine
and Aviation Turbine Fuel 106
LT/SP-253000/M
-S
ulfonation Number
LT/SA-120000/M
107
-U
nsulfonated Residue
LT/UA-121000/M
107
➔ LPG
- G age Vapour Pressure
of LPG
83
LT/VP-174000-A-B-C/M
-V
apour Pressure
Reid Method
116
LT/RC-179000-A-B-C/M
Viscosimetry
- B rookfield ©
Original Viscometer
-E
ngler Viscometer
LT/EV-26000/M
LT/EV-27000-1/M
LT/EV-27000-2/M
120
-F
ord Viscometer
LT/FV-20000/M
LT/FV-21000/M
LT/FV-22000/M
121
-H
öppler Viscometer
LT/HV-32000/M
LT/HV-33000/M
121
-L
ow Temperatures
Viscometer Bath
LT/VB-46000/M
LT/VB-47000/M
125
-R
edwood Viscometer
LT/RV-10000/M
LT/RV-10200/M
LT/RV-12000/M
LT/RV-12200/M
LT/RV-12000-2/M
LT/RV-12200-2/M
LT/RV-12000-3/M
LT/RV-12200-3/M
122
- S aybolt Viscometer
LT/SV-18000-1/M
LT/SV-18000-2/M
LT/SV-18000-3/M
123
-V
iscometer Bath
LT/VB-37000/M
LT/VB-39000/M
124
-V
iscometer Tube Cleaner
and Dryer
125
LT/VC-48100/M
Water
-D
ean and Stark
LT/DS-109000/M
126
-D
ew Point
LT/DP-172000/M
LT/DP-173000/M
127
-W
ater in Crude Oil
by Distillation
LT/WD-110000/M
126
-W
ater Reaction
of Aviation Fuels
LT/WR-253700/M
126
➔ Lubricating Greases and Oils
- Water Washout
Characteristics
of Lubricating Greases
93
LT/WW-205600/M
Wax
-D
rop Melting Point
LT/DM-210000/M
128
117
-C
alibrated Glass Capillary
Kinematic Viscometers
118
-M
elting Point
LT/WM-209000/M
128
-B
.R.T.A. Viscometer
LT/BV-14000-1/M
LT/BV-14000-2/M
LT/BV-14000-3/M
LT/BV-14000-4/M
-O
il and Solvent in Wax
LT/WA-218000/M
128
119
3 SummaryMethods
Additional Instruments
-C
ryostat and Low
Temperature Thermostatic
Bath and Circulator
129
LT/CB-40800-M/30
LT/CB-90000-M/80
-H
eating Device Unit
LT/HD-1280/S6
LT/HD-1280/A6
-D
rying Oven and
Natural Ventilation Oven
LT/DO-248000/F
LT/DO-248000/N
129
129
-T
hermostatic Bath
LT/TB-177000/M
LT/TB-177500/M
LT/TB-205100/M
130
-T
ransfer Bath
LT/TB-72200/M
130
-W
ater Bath
LT/WB-123000/M
130
AASHTO
AASHTO
AASHTO
AASHTO
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
T48 (obs.)
T53
T73
T172
76
25
77
77
D5
101
D6
53
D36
25, 52
D56
37, 78
D70
70
D71
70
D86
73
D87
128
D88
123
D91
58
D92
35, 76
D93
29
D93-A-B
77
D95
126
D96 (obs.)
58
D97
11, 15, 20 42, 61
D113
50
D127
128
D129
113
D130
65
D139
51
D156
64
D189
103
D216 (obs.)
73
D217
89, 101
D240
57
D244
53
D287
70
D323
116, 130
D381
79
D402
50
D445
124
D446
124
D447 (obs.)
73
D454
79
D473
111
D482
102
D483
107
D524
106
D525
96
D566
87
D572
79
D611-A-B-C-D
49
D665
109
D721
128
D789
117
D808
113
D850
73
D852
62
D873
96
D874
102
D892
68
D893
58
D937
101
D942
91
D943
95
D972
88, 130
D1019 (obs.)
107
D1078
73
D1084
117
D1094
126
D1120
57
D1142
127
D1160
71
D1177 13, 20, 62
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
ASTM
D1200
121
D1263
93
D1264
93
D1265
85
D1266
114
D1267
83, 130
D1290
58
D1298
70
D1310
78
D1319
104
D1321
101
D1322
106
D1384
66
D1401
68
D1403
89, 101
D1404
88
D1478
92
D1481
70
D1551 (obs.)
114
D1638
117
D1655
13, 20
D1657
82, 130
D1665
120
D1742
90
D1743
86
D1748
110
D1754
55
D1796
58
D1824
117
D1831
92, 101
D1837
84
D1838
81, 130
D1881
67
D1966
58
D2001
105
D2002
102
D2068
21
D2112
99
D2158
84
D2170
124
D2196
117
D2265
87
D2272
99
D2273
58
D2274
95
D2382 (obs.)
57
D2386
13, 20, 63
D2416
103
D2420
84
D2440
97
D2500
7, 15, 20, 42, 61
D2532
125
D2547
105
D2669
117
D2709
58
D2711
58, 67
D2849
117
D2872
54
D2884
101
D2983
117, 125
D3143
78
D3235
128
D3278
37
D3286 (obs.)
57
D3603
109
D3828
31
D3934
37, 78
D3941
29, 37, 78
D4006 126
D4007
58
D4016
117
4 Methods
ASTM D4287
ASTM D4310
ASTM D4422
ASTM D4539 ASTM D4636
ASTM D4693
ASTM D4742
ASTM D4809
ASTM D4870
ASTM D4950
ASTM D5125
ASTM D5191
ASTM D5452
ASTM D5534
ASTM D5771 ASTM D5772 ASTM D5773 ASTM D5800
ASTM D5853
ASTM D5865
ASTM D5901 ASTM D5950
ASTM D5972 ASTM D6560
ASTM D6371 ASTM D6751
ASTM D6997
ASTM E28
ASTM E100
ASTM E102
ASTM E133
ASTM E502
BS
BS
BS
BS
BS
BS
684-1.17
2839 (obs.)
3442-2 (obs.)
4689 (obs.)
6664-3 (obs.)
6664-4 (obs.)
DIN
DIN
DIN
DIN
DIN
DIN
DIN
DIN
DIN
DIN
DIN
DIN
DIN
DIN
DIN
DIN
DIN
DIN
DIN
DIN
DIN
DIN
DIN
DIN
DIN
DIN
DIN
DIN
DIN
12685 (obs.)
51360-1
51376
51411
51421
51428
51551
51560
51566
51571
51577
51578
51579
51580
51585
51587
51595
51597
51599
51758 (obs.)
51751
51758 (obs.)
51759
51768
51780
51784
51789
51793
51799
117
95
102
23
94
92
99
57
113
86, 87, 92
121
DIN
DIN
DIN
DIN
DIN
DIN
DIN
DIN
DIN
DIN
DIN
51801
51801-2
51804
51808
52010
52011
52012
53015
53019
53211
55680 (obs.)
87
88
101
91
101
25
51
121
117
121
78
39, 42
111
109
7, 15, 20, 42
7, 15, 20, 42
7, 15, 20, 42
27
11, 20, 42, 61
57
13, 20
11, 20, 42
13, 20
103
9, 20, 62
77
EN
EN
EN
EN
EN
EN
EN
EN
EN
EN
EN
EN
EN
10 (obs.)
116
456 (obs.)
924
12595
12607
12607-2
12846
1427
13357
13736
22592 (obs.)
22719
104
9, 20, 62
78
33, 75, 78
124
54
55
119
25
119
33
35, 76
29, 77
53
25
70, 80
123
73
29
77
FTM
FTM
FTM
FTM
FTM
FTM
FTM
141-4293
791-110
791-321
791-0304
791-1101
791-1103
791-3703
77
77
90
123
78
76
104
77
75
76
GPA 2140
85
78
78
126
64
35, 76
64
63
61, 62
103
120
68
73, 128
113
29
101
101
109
95
103
7, 15, 20, 42, 61
68
77
73
77
65
114
96
79
111
58
96
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
2-A-B-C-D
4
12
13
14
15
16
31 (obs.)
32 (obs.)
34
34 - A - B
36
40
45
48
49
50
53
55 57
58
58 - B
59 - C (obs.)
61
63
69
70 (obs.)
71-1-2
72
74
75 (obs.)
77
49
102
57, 130
103
106
11, 20, 42, 61
13, 20, 63
88
50
29
77
35, 76
96
53
94
101
101
111
128
106
25
52
70
113
114
116, 130
122
124
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
IP
80
107
113 (obs.)
121
123
125
131
132
133
135 138
142
143
145 (obs.)
146
154
156
158
160
161
163
170
179
182
183
189
190
195
212
215
219
227
229
235
248
280
303
304
304-1-2 (obs.)
309
310
317
319
358
359
371
375
376
387
388
390 (A)
394
410
411
419
421
435
440
441
444
445
446
491
492
502
528
529
51
114
75
90
73
64
79
87
128
109
96
91
103
107
68
65
104
128
70
83, 130
102
33, 75
101
105
88
70
70
73
120
93
7, 15, 20, 42, 61
65
99
82
105
94, 97
31
37
75, 78
ISO 1516
ISO 1523
JIS
JIS
JIS
JIS
JIS
K
K
K
K
K
NF
NF
NF
NF
NF
NF
NF
NF
NF
M07-011 (obs.)
M07-019 (obs.)
M07-024
T60-118 (obs.)
T60-616 (obs.)
T60-617 (obs.)
T66-009 (obs.)
T66-008
T78-102
101
84
124
126, 126
58
88
2207
2249
2265
2288
2536
25, 70, 123
70
70, 76, 77, 78
62
104
113
101
21
95
113
39
83, 130
81
9, 20
27
13, 20
111
11, 20, 42
7, 15, 20, 42
7, 15, 20, 42
7, 15, 20, 42
33, 37, 75, 78
33 , 37, 75, 78
119
13, 20
13, 20
126
58
1716
57
2083
105
2137
101
2160
65
2431
121
2592
35, 76
2719
29
2719 - A - B
77
3007
116
3013
13, 20, 63
3015
7, 15, 20, 42, 61
3016 11, 15, 20, 42, 61
3104
124
3105
124
3405
73
3675
70
3679
31, 33, 37, 61, 78
3680
78
3735
139
3837
111
3838
70
3840
107
3987
102
3993
82
4256
83
4262
106
4263
95
4788
126
4625
25
6245
102
6251
81
6614
68
6615
103
7120
109
7536
96
9029
126
10307
113
13736
33, 75
15267
77
9, 20, 61, 62
119
105
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
33 , 37, 75, 78
37, 75, 78
75
77
104
76
78
78
75
25
62
5
Automatic
Analysers
LabLink’s software feature
-A
ll analytical parameters recorded
- A nalysis results automatically saved in Excel
(Windows ® based application ) compatible format
- A utomatic calibration by software of each probe
- C alibration data displayed for each probe
- C alibration data stored on hard-disk
- C ustomizable analysis parameters and methods
- C ustomizable results Report
- D iagnostic panel with access to all inputs/outputs
- L ast calibration date displayed in the set-up
- O nly a variable resistor calibration box needed
- P rintable graph and results
- S elf-identification of the typology of the analysers connected
- U p to 10 instruments in real time analysis
- U ser Friendly interface
Optional:
- C ode39/GencodeBarcode Reader
- B lueTooth Connection Adapter
- T CP/IP Network Monitor
6 Automatic Analysers: NewLab Range
Cloud Point – NewLab 100
Testing Unit 100
NewLab 100-100 SA
7 Automatic Analysers: NewLab Range
Cloud Point – NewLab 100
Testing Unit 100
ASTM D2500 - D
5771 - D
5772 - D
5773
DIN 51597
IP 219 - I P 444 - I P 445 - I P 446
ISO 3015
Subject
Cloud Point of petroleum products
and biodiesel fuels.
Measuring Cloud Point Principle
The sample is cooled down according to
the methods while the clouds appearance
is observed on the silver bottom of the test
jar by means of an optical sensor.
The measurement is done by reflection
on the silver bottom of the test jar via
a fast light detector. The signal from light
detector is traded by the LabLink software.
The dynamic measurement is performed
regardless of the sample’s colour.
Measuring Cloud Point Devices
Light pulsed emission on I.R spectrum
through a coaxial fibber optic.
Measuring Temperature Probe
- Platinum
resistance PT100 class A
-T
he PT100 is touching the bottom
of the test jar
Measuring Parameters
- Temperatures: in °C
- M easuring range: +80°C … -80°C
- R esolution: 0.06 °C
- A ccuracy: ± 0.1 °C
- Repeatability / reproducibility
as per standards methods or better
Software Features
The LabLink software is Windows ® based
and is able to manage up to 10 analytical
heads simultaneously
-U
ser friendly interface
-A
ll analytical parameters recorded
-C
ustomizable analysis parameters
and methods
-C
ustomizable results report
-P
rintable graphs and results
-S
elf-identification of the typology
of the analysers connected
Calibration Menu
- A utomatic calibration
of each temperature probe
- L ast calibration date referred
to each single probe displayed
and relative data printable
- D isplay of calibration diagram
- I nsertion of offset values
- S tandard and advanced calibration modes
Data Utilities
- F ields for introduction
of operator and product name
- A rchive viewer for files recall
- A ll analysis stored in Excel ®
compatible format
- S torage capacity for more
than 60’000 analysis
- L IMS compatible
Stand alone version with integrated panel PC
- TFT/LCD 6.5” or 12”
- R esolution 640 × 480 262K colours
or 1024 × 768 16M colours
- U SB port for connection to an external
printer and/or external PC
- S torage capacity for more
than 60’000 analysis
Test Jar
- S ame dimensions and volume as
described by the standard test methods
- P roduct level mark
- S mall edge on the top in order to fix
the glass cell to the analytical head
- S ilvered bottom with anti-scratch film
protection
Cooling System
Integrated gas CFC free motor
compressors:
- S ingle stage
(for temperatures up to -40°C / 1)
- D ouble stage
(for temperatures up to -80°C / 2)
Equipped with an automatic energy power
save system. After 15 minutes from
the end of the analysis the cooling system
goes in stand-by mode.
The software includes:
Analysis Menu
-S
tandard method as per ASTM / IP / ISO /
EN / DIN… norms of reference
-O
ptional methods
· fast bath, to reduce the time of analysis
· T-sample, T-bath (Delta T constant)
· cooling rate °C / h
-A
udible alarm and displayed messages
at the end of the analysis and in case
of errors and/or malfunctions
Diagnostic Menu
-D
irect access to all analog, digital, inputs
and outputs
-S
electable value displaying: °C / °F / Volt
Safety Devices
- P ressure controller for 1 st stage motor
compressor
- P ressure controller for 2 nd stage motor
compressor
- T hermostat for 2 nd stage activation
- T hermo-switch
for each cooling / heating jacket
- M otor compressors equipped
with internal overload devices
Electrical Supply
- 2 20V ± 15% / 50 to 60 Hz
- 1 15V ± 15% / 60 Hz
Cord Cable:
3 conductors flexible cable 2 m (7 feet)
length with PVC sheath oil and heat
resistant as per CENELEC directives
Ambient Temperature
- M ax 32 °C
- H .R. 80%
Dimensions
1 test 2 test 3 test 4 test 6 test
(cm)
position position position position position
width
66
66
100 134 150
depth
60
60
60
60
105
height
80
80
80
80
150
Weight (kg)
single stage
70
90
compressor
double stage
80
100
130 160 280
compressor
Spare Parts
LAB-xxx/005-03: heather +
auto adhesive insulation
LAB-xxx/005-04: thermo switch
LAB-xxx/005-06: PT100 bath
LAB-xxx/007-02: static relay
LAB-xxx/007-04: PCB fuse 1 AT
(box of 10 pcs)
LAB-xxx/006-01: cooling fluid valve + fitting
LAB-100/007-01: main electronic board
Cloud Point
LAB-100/008-06: fibber optic
LAB-100/008-07: light board
LAB-100/008-12: PT100 product
w/connector
LAB-100/008-04: test jar with silver bottom
LAB-100/008-041: o-ring for test jar
Calibration Tools
OilLab 80:
calibration decade box – PT100 simulator
OilLab 81:
set of connectors and cables for cold range
8 Automatic Analysers: NewLab Range
Cold Filter Plugging Point (CFPP) – NewLab 200
Testing Unit 200
NewLab 200-200 SA
9 Automatic Analysers: NewLab Range
Cold Filter Plugging Point (CFPP) – NewLab 200
Testing Unit 200
ASTM D6371
EN 116
IP 309 - IP 419
Subject
Cold Filter Plugging Point of diesel,
biodiesel and heating fuels.
Measuring CFPP Principle
The sample is cooled down according
to the methods and when the preselected
temperature is reached a vacuum of
20 mBar is automatically applied to the
sample. The product is sucked through the
filter into the calibrated aspiration pipette.
If the sample takes more than 60 seconds
to reach the upper barrier detector (during
the aspiration phase), or it fails to return
completely into the test jar before that
the product has cooled by a further 1°C,
the Cold Filter Plugging Point is reached.
Measuring CFPP Devices
- Aspiration pipette
- Filter assembly
- Light barrier
Measuring Temperature Probe
- Platinum resistance PT100 class A
Accessories:
OilLab 250 – External vacuum generator:
- Vacuum pump
- Two glass bottles
-A
glass cork with: u-tube, funnel,
manual flow regulating valve
OilLab 255 – internal vacuum generator:
- 1 × micro-pump of 350 mBar
-1
× electronic pressure / vacuum regulator
composed by: proportional valve, pressure
/ vacuum control sensor, regulator for
reference vacuum generation at 20 mBar,
vacuum stabilizer
Measuring Parameters
- Temperatures: in °C
- Measuring range: +80°C … -80°C
- Resolution: 0.06 °C
- Accuracy: ± 0.1 °C
-R
epeatability / reproducibility
as per standards methods or better
Software Features
The LabLink software is Windows ® based
and is able to manage up to 10 analytical
heads simultaneously
- User friendly interface
- All analytical parameters recorded
-C
ustomizable analysis parameters
and methods
- Customizable results report
- Printable graphs and results
-S
elf-identification of the typology
of the analysers connected
The software includes:
Analysis Menu
-S
tandard method as per ASTM / IP / ISO /
EN / DIN… norms of reference
-O
ptional methods:
· T-sample, T-bath (Delta T constant)
· cooling rate °C / h
· selectable bath steps temperature
· fast bath with selectable temperature
-A
udible alarm and displayed messages
at the end of the analysis and in case
of errors and/or malfunctions
-T
he parameters displayed and updated
in real time are:
· sample temperature
· up level light value
· bath temperature
· aspiration time
· vacuum pressure
· release time
· low level light value
· intertime test
- T hanks to an istogram (graph) that shows
the aspiration and release times it is
possible to observe the behaviour
of the sample during its cooling phase
- T his feature is an excellent tools
for the observation and evaluation
of the additivations actions and behaviour
Diagnostic Menu
- D irect access to all analog,
digital, inputs and outputs
- Selectable value displaying: °C / Volt
- Vacuum data displayed in mBars
Calibration Menu
- A utomatic calibration
of each temperature probe
- Automatic calibration of vacuum sensor
- L ast calibration date referred
to each single probe displayed
and relative data printable
- Display of calibration diagram
- Insertion of offset values
- Standard and advanced calibration modes
Data Utilities
- F ields for introduction of operator
and product name
- Archive viewer for files recall
- A ll analysis stored in Excel ®
compatible format
- S torage capacity for more
than 60’000 analysis
- LIMS compatible
Stand alone version with integrated panel PC
- TFT/LCD 6.5” or 12”
- R esolution 640 × 480 262K colours
or 1024 × 768 16M colours
- U SB port for connection to an external
printer and/or external PC
- S torage capacity for more
than 60’000 analysis
Cleaning pipette procedure
- B y using a suitable cleaning liquid and
pressing the relevant function button
the analyser performs a cleaning
sequence of 10 aspirations cycles
- E asy removing of aspiration pipette
and filter assembly allows cleaning
according to the methods
Test Jar
- S ame dimensions and volume as
described by the standard test methods
- Product level mark
- S mall edge on the top in order to fix the
glass cell to the analytical head
Cooling System
Integrated gas CFC free motor
compressors:
- S ingle stage
(for temperatures up to -40°C / 1)
- D ouble stage
(for temperatures up to -80°C / 2)
Equipped with an automatic energy power
save system. After 15 minutes from the end
of the analysis the cooling system goes
in stand-by mode.
Safety Devices
- P ressure controller for 1 st stage
motor compressor
-P
ressure controller for 2 nd stage
motor compressor
- Thermostat for 2 nd stage activation
- T hermo-switch for each cooling
/ heating jacket
- M otor compressors with internal
overload devices
Electrical Supply
- 220V ± 15% / 50 to 60 Hz
- 115V ± 15% / 60 Hz
Cord Cable
3 conductors flexible cable 2 m (7 feet)
length with PVC sheath oil and heat
resistant as per CENELEC directives
Ambient Temperature
- max 32 °C, H.R. 80%
Dimensions
1 test 2 test 3 test 4 test 6 test
(cm)
position position position position position
width
66
66
100 134 150
depth
60
60
60
60
105
height
80
80
80
80
150
Weight (kg)
single stage
70
90
compressor
double stage
80
100 130 160 280
compressor
Spare Parts
LAB-xxx/005-03: heather + auto adhesive
+ insulation
LAB-xxx/005-04: thermo switch
LAB-xxx/005-06: PT100 bath
LAB-xxx/007-02: static relay
LAB-xxx/007-04: PCB fuse 1 AT
(box of 10 pcs)
LAB-xxx/006-01: cooling fluid valve + fitting
LAB-200/002-02: vacuum valve + fitting
LAB-200/007-01: main electronic board
CFPP
LAB-200/008-06: sensor up (orange)
LAB-200/008-07: sensor down (yellow)
LAB-200/008-08: emitter up (red)
LAB-200/008-09: emitter down (blue)
LAB-200/008-12: PT100 product
w/connector
LAB-200/008-04: CFPP calibrated glass cell
LAB-200/008-041: o-ring for CFPP test jar
LAB-200/008-13: calibrated aspiration
pipette CFPP
LAB-200/008-18: clamp + kness
for vacuum tube
LAB-200/013-01: filter assembly
LAB-200/013-02: filter
LAB-200/1288: o-ring (big) for CFPP filter
LAB-200/1232: o-ring (small) for CFPP filter
Calibration Tools
OilLab 80:
calibration decade box – PT100 simulator
OilLab 81:
set of connectors and cables for cold range
10 Automatic Analysers: NewLab Range
Pour Point – NewLab 300
Testing Unit 300
NewLab 300-300-300/2 SA
11 Automatic Analysers: NewLab Range
Pour Point – NewLab 300
Testing Unit 300
ASTM D97 - ASTM D5853 - ASTM D5950
IP 15 - IP 441
ISO 3016
Subject
Pour Point of petroleum products, crude
oils, motor and engine oils, additives,
lubricating oils, …
Measuring Pour Point Principle
According to the methods, the sample
is cooled down at a specified rate and,
at the prescribed temperature intervals,
the mechanical arm of the analyser lifts
the test jar from the cooling jacket and tilts
it in order to bring it in horizontal position
to test the flow of the product.
The sample movement is detected
by the thermal probes (PT100 detection)
placed above the sample surface which
react if touched by the cooled sample.
Measuring Pour Point Devices
-T
wo PT100 detection probes placed
on the surface of the product
-M
echanical moving arm bringing
the test jar in horizontal position
Measuring Temperature Probe
- Platinum resistance PT100 class A
Measuring Parameters
- Temperatures: in °C
- Measuring range: +80°C … -80°C
- Resolution: 0.06 °C
- Accuracy: ± 0.1 °C
- R epeatability / reproducibility
as per standards methods or better
Software Features
The LabLink software is Windows ® based
and is able to manage up to 10 analytical
heads simultaneously
- User friendly interface
- All analytical parameters recorded
-C
ustomizable analysis parameters
and methods
- Customizable results report
- Printable graphs and results
-S
elf-identification of the typology
of the analysers connected
The software includes:
Analysis Menu
-S
tandard method as per ASTM / IP / ISO /
EN / DIN… norms of reference:
· (internal) with sample pre-heating
· (external) without sample pre-heating
- O ptional methods:
· T-sample, T-bath (Delta T constant)
· cooling rate °C / h
· selectable bath steps
· fast bath
· selectable tilt out test temperature
-A
udible alarm and displayed messages
at the end of the analysis and in case of
errors and/or malfunctions
Diagnostic Menu
-D
irect access to all analog, digital,
inputs and outputs
- Selectable value displaying: °C / Volt
Calibration Menu
- A utomatic calibration
of each temperature probe
- L ast calibration date referred
to each single probe displayed
and relative data printable
- Display of calibration diagram
- Insertion of offset values
- S tandard and advanced calibration
modes
Data Utilities
- F ields for introduction of operator
and product name
- Archive viewer for files recall
- A ll analysis stored in Excel ®
compatible format
- S torage capacity for more
than 60’000 analysis
- LIMS compatible
Stand alone version with integrated panel PC
- TFT/LCD 6.5” or 12”
- R esolution 640 × 480 262K colours
or 1024 × 768 16M colours
- U SB port for connection to an external
printer and/or external PC
- S torage capacity for more
than 60’000 analysis
Test Jar
- S ame dimensions and volume as
described by the standard test methods
- Product level mark
- S mall edge on the top in order to fix
the glass cell to the analytical head
Cooling System
Integrated gas CFC free motor
compressors:
- S ingle stage
(for temperatures up to -40°C / 1)
- D ouble stage
(for temperatures up to -80°C / 2)
Equipped with an automatic energy power
save system. After 15 minutes from
the end of the analysis the cooling system
goes in stand-by mode.
Safety Devices
- P ressure controller
for 1 st stage motor compressor
- P ressure controller
for 2 nd stage motor compressor
- Thermostat for 2 nd stage activation
- T hermo-switch
for each cooling / heating jacket
- M otor compressors with internal
overload devices
Electrical Supply
- 220V ± 15% / 50 to 60 Hz
- 115V ± 15% / 60 Hz
Cord Cable:
3 conductors flexible cable 2 m (7 feet)
length with PVC sheath oil and heat
resistant as per CENELEC directives
Ambient Temperature
- Max 32 °C, H.R. 80%
Dimensions
1 test 2 test 3 test 4 test 6 test
(cm)
position position position position position
width
66
66
100 134 150
depth
60
60
60
60
105
height
80
80
80
80
150
Weight (kg)
single stage
70
90
compressor
double stage
80
100
130 160 280
compressor
Spare Parts
LAB-xxx/005-03: heather + auto adhesive
+ insulation
LAB-xxx/005-04: thermo switch
LAB-xxx/005-06: PT100 bath
LAB-xxx/007-02: static relay
LAB-xxx/007-04: PCB fuse 1 AT
(box of 10 pcs)
LAB-xxx/006-01: cooling fluid valve + fitting
LAB-300/007-01: main electronic board
Pour Point
LAB-300/002-16: precision potentiometer
LAB-300/008-12: PT100 product
with connector
LAB-300/008-13: PT100 detection
LAB-300/008-04: calibrated test jar
LAB-300/008-041: o-ring for test jar
Calibration Tools
OilLab 80:
Calibration decade box – PT100 simulator
OilLab 81:
Set of connectors and cables for cold range
12 Automatic Analysers: NewLab Range
Freezing Point – NewLab 410
Testing Unit 410
NewLab 410/2
13 Automatic Analysers: NewLab Range
Freezing Point – NewLab 410
Testing Unit 410
ASTM D1177 - D1655 - D2386 - D5901 D5972
IP 16 - IP 435 - IP 528 - IP 529
ISO 3013
Subject
Freezing Point of aviation fuels,
aviation gasoline, aviation turbine fuels,
engine coolants, antifreeze products,
brake fluids,…
Measuring Freezing Point Principle
According to the methods, the sample
is cooled down and stirred. The solid
hydrocarbon crystals formation
are detected by means of a light beam
reflected thanks to a mirror. As soon as
crystals are detected, the sample is warmed
up until their complete disappearance.
Measuring Freezing Point Devices
- L ight pulsed emission on I.R spectrum
through a coaxial fibber optic
- Coaxial fibber optic equipped with a mirror
Measuring Temperature Probe
- Platinum resistance PT100 class A
Stirrer
- A micro-motor drives
all the mechanical system
Measuring Parameters
- Temperatures: in °C
- Measuring range: +80°C … -100°C
- Resolution: 0.06 °C
- Accuracy: ± 0.1 °C
- R epeatability / reproducibility
as per standards methods or better
Software Features
The LabLink software is Windows ® based
and is able to manage up to 10 analytical
heads simultaneously
- User friendly interface
- All analytical parameters recorded
-C
ustomizable analysis parameters
and methods
- Customizable results report
- Printable graphs and results
-a
ny Windows ® compatible printer
can be used
-S
elf-identification of the typology
of the analysers connected
The software includes:
Analysis Menu
-S
tandard method as per ASTM / IP / ISO /
EN / DIN… norms of reference
-O
ptional Methods
· special detection of contaminants
· application for solvents and acetic acid
· defrost at +30°C
-A
udible alarm and displayed messages
at the end of the analysis and in case
of errors and/or malfunctions
Diagnostic Menu
-D
irect access to all analog, digital,
inputs and outputs
- Selectable value displaying: °C / Volt
Calibration Menu
- A utomatic calibration
of each temperature probe
- L ast calibration date referred
to each single probe displayed
and relative data printable
- Display of calibration diagram
- Insertion of offset values
- S tandard and advanced
calibration modes
Data Utilities
- F ields for introduction of operator
and product name
- Archive viewer for files recall
- A ll analysis stored in Excel ®
compatible format
- S torage capacity
for more than 60’000 analysis
- LIMS compatible
Stand alone version with integrated panel PC
- TFT/LCD 6.5” or 12”
- R esolution 640 × 480 262K colours
or 1024 × 768 16M colours
- U SB port for connection to an external
printer and/or external PC
- 2 × USB and/or RS232
and/or Ethernet connector
- S torage capacity for more
than 60’000 analysis
Test Jar
- S ame dimensions and volume as
described by the standard test methods
- Product level mark
- S mall edge on the top in order
to fix the glass cell to the analytical head
Cooling System
Insulated cooling jackets
Integrated gas CFC free motor
compressors:
- S ingle stage
(for temperatures up to -40°C / 1)
- D ouble stage
(for temperatures up to -85°C / 2)
Equipped with an automatic energy power
save system. After 15 minutes from
the end of the analysis the cooling system
goes in stand-by mode.
Safety Devices
- P ressure controller
for 1st stage motor compressor
- P ressure controller
for 2nd stage motor compressor
- Thermostat for 2nd stage activation
- T hermo-switch for each cooling / heating
jacket
- M otor compressors equipped
with internal overload devices
Electrical Supply
- 220V ± 15% / 50 to 60 Hz
- 115V ± 15% / 60 Hz
Cord Cable:
3 conductors flexible cable 2 m (7 feet)
length with PVC sheath oil and heat
resistant as per CENELEC directives
Ambient Temperature
- Max 32 °C
- H.R. 80%
Dimensions
1 test 2 test 3 test 4 test 6 test
(cm)
position position position position position
width
66
66
100 134 150
depth
60
60
60
60
105
height
80
80
80
80
150
Weight (kg)
single stage approx.
90
compressor
60
double stage
100 130 160 280
compressor
Spare Parts
LAB-xxx/005-03: heather + auto adhesive
+ insulation
LAB-xxx/005-04: thermo switch
LAB-xxx/005-06: PT100 bath
LAB-xxx/007-02: static relay
LAB-xxx/007-04: PCB fuse 1 AT
(box of 10 pcs)
LAB-xxx/006-01: cooling fluid valve + fitting
LAB-400/007-01: main electronic board
Freezing Point
LAB-400/008-04: PT100 product
w/connector
LAB-400/008-05: stirrer
LAB-400/008-08: mirror for Freezing Point
LAB-400/008-06: motor for stirrer
LAB-400/008-07: fibber optic
for Freezing Point
LAB-400/008-09: electronic board
for detection
LAB-410/008-12: removable glass cell
Freezing Point
LAB-410/008-041: o-ring for Freezing Point
test jar
Calibration Tools
OilLab 80:
calibration decade box – PT100 simulator
OilLab 81:
set of connectors and cables for cold range
14 Automatic Analysers: NewLab Range
Cloud and Pour Point – NewLab 1300
Testing Unit 1300
NewLab 1300-1300-1300-1300/2
15 Automatic Analysers: NewLab Range
Cloud and Pour Point – NewLab 1300
Testing Unit 1300
Cloud Point:
ASTM D2500 - D5771 - D5772 - D5773
DIN 51597
IP 219 - IP 444 - IP 445 - IP 446
ISO 3015
Pour Point:
ASTM D97 - D5853 - D5950
IP 15 - IP 441
ISO 3016
Subject
Cloud Point of petroleum products and
biodiesel fuelsPour Point of petroleum
products, crude oils, motor and engine oils,
additives, lubricating oils, …
Measuring Cloud and Pour Point Principle
Cloud Point
The sample is cooled down according to
the methods while the clouds appearance
is observed on the silver bottom of the test
jar by means of an optical sensor.
The measurement is done by reflection
on the silver bottom of the test jar via a fast
light detector. The signal from light detector
is traded by the LabLink software.
The dynamic measurement is performed
regardless of the sample’s colour.
Pour Point
According to the methods, the sample
is cooled down at a specified rate and,
at the prescribed temperature intervals,
the mechanical arm of the analyser lifts
the test jar from the cooling jacket and tilts
it in order to bring it in horizontal position
to test the flow of the product.
The sample movement is detected by the
thermal probes (PT100 detection) placed
above the sample surface which react if
touched by the cooled sample.
Measuring Cloud and Pour Point Devices
- C loud: light pulsed emission on I.R
spectrum through a coaxial fibber optic.
- Pour: platinum resistance PT100 class A
- P our: mechanical moving arm bringing the
test jar in horizontal position
Measuring Temperature Probe
- Platinum resistance PT100 class A
- T he Cloud Point PT100 is touching the
bottom of the test jar
Measuring Parameters
- Temperatures: in °C
- Measuring range: +80°C … -80°C
- Resolution: 0.06 °C
- Accuracy: ± 0.1 °C
- R epeatability / reproducibility
as per standards methods or better
Software Features
The LabLink software is Windows ® based
and is able to manage up to 10 analytical
heads simultaneously
- User friendly interface
- All analytical parameters recorded
- C ustomizable analysis parameters
and methods
- Customizable results report
- Printable graphs and results
- S elf-identification of the typology
of the analysers connected
The software includes:
Analysis Menu
- S tandard method as per ASTM / IP / ISO /
EN / DIN… norms of reference:
· internal, with sample pre-heating,
for Pour Point only
· external without sample pre-heating,
for Pour Point only
- O ptional methods:
· fast bath to reduce the time of analysis
· T-sample, T-bath (delta T constant)
· cooling rate °C / h
- A udible alarm and displayed messages
at the end of the analysis and in case
of errors and/or malfunctions)
Diagnostic Menu
- D irect access to all analog, digital, inputs
and outputs
- Selectable value displaying: °C / Volt
Calibration Menu
- A utomatic calibration
of each temperature probe
- L ast calibration date referred
to each single probe displayed
and relative data printable
- Display of calibration diagram
- Insertion of offset values
- Standard and advanced calibration modes
Data Utilities
- F ields for introduction of operator
and product name
- Archive viewer for files recall
- A ll analysis stored in Excel ®
compatible format
- S torage capacity for more
than 60’000 analysis
- LIMS compatible
Stand alone version with integrated panel PC
- TFT/LCD 6.5” or 12”
- R esolution 640 × 480 262K colours
or 1024 × 768 16M colours
- U SB port for connection to
an external printer and/or external PC
- S torage capacity for more
than 60’000 analysis
Test Jar
- S ame dimensions and volume
as described
by the standard test methods
- Product level mark
- S mall edge on the top in order to fix
the glass cell to the analytical head
- S ilvered bottom with anti-scratch film
protection
Cooling System
Integrated gas CFC free motor
compressors:
- S ingle stage
(for temperatures up to -40°C / 1)
- D ouble stage
(for temperatures up to -80°C / 2)
Equipped with an automatic energy power
save system.After 15 minutes from
the end of the analysis the cooling system
goes in stand-by mode.
Safety Devices
- P ressure controller
for 1 st stage motor compressor
- P ressure controller
for 2 nd stage motor compressor
- Thermostat for 2 nd stage activation
- T hermo-switch
for each cooling / heating jacket
- M otor compressors equipped with internal
overload devices
Electrical Supply
- 220V ± 15% / 50 to 60 Hz
- 115V ± 15% / 60 Hz
Cord cable:
3 conductors flexible cable 2 m (7 feet)
length with PVC sheath oil and heat
resistant as per CENELEC directives
Ambient Temperature
- Max 32 °C
- H.R. 80%
Dimensions
1 test 2 test 3 test 4 test 6 test
(cm)
position position position position position
width
66
66
100 134 150
depth
60
60
60
60
105
height
80
80
80
80
150
Weight (kg)
single stage
70
90
compressor
double stage
80
100
130 160 280
compressor
Spare Parts
LAB-xxx/005-04: thermo switch
LAB-xxx/005-06: PT100 bath
LAB-xxx/007-02: static relay
LAB-xxx/007-04: PCB fuse 1 AT,
box of 10 pcs
LAB-xxx/006-01: cooling fluid valve + fitting
LAB-1300/007-01: main electronic board
Cloud and Pour Point
LAB-100/008-06: fibber optic
LAB-100/008-07: light board
LAB-1300/008-12: PT100 product
w/connector Cloud Point
LAB-100/008-04: test jar with silver bottom
LAB-100/008-041: o-ring for test jar
LAB-300/002-16: precision potentiometer
LAB-300/008-12: PT100 product
w/connector Pour Point
LAB-300/008-13: PT100 detection
Pour Point
Calibration Tools
OilLab 80:
calibration decade box – PT100 simulator
OilLab 81:
set of connectors and cables for cold range
16 Automatic Analysers: NewLab Range
NewLab Range Table
Cooling capacity
3 head / 2
2 head / 2
1 head / 2
2 head / 1
1 head / 1
Article
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–40°
100/1
200/1
300/1
1300/1
100/100/1
200/200/1
300/300/1
1300/1300/1
100/200/1
100/300/1
100/1300/1
200/300/1
200/1300/1
300/1300/1
100/2
200/2
300/2
410/2
1300/2
100/100/2
100/200/2
100/300/2
100/410/2
100/1300/2
200/200/2
200/300/2
200/410/2
200/1300/2
300/300/2
300/410/2
300/1300/2
410/410/2
410/1300/2
1300/1300/2
100/100/100/2
100/100/200/2
100/100/300/2
100/100/410/2
100/100/1300/2
200/200/200/2
100/200/200/2
200/200/300/2
200/200/410/2
200/200/1300/2
300/300/300/2
100/300/300/2
200/300/300/2
300/300/410/2
300/300/1300/2
410/410/410/2
100/410/410/2
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300/410/410/2
410/410/1300/2
1300/1300/1300/2
100/1300/1300/2
200/1300/1300/2
300/1300/1300/2
410/1300/1300/2
100/200/300/2
100/200/410/2
100/200/1300/2
200/300/410/2
200/300/1300/2
300/410/1300/2
100/410/1300/2
200/410/1300/2
–80°
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Analitycal heads
Cloud
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Pour
Freezing
Cloud
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17 Automatic Analysers: NewLab Range
Cooling capacity
4 head / 2
Article
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–40°
100/100/100/100/2
200/200/200/200/2
300/300/300/300/2
410/410/410/410/2
1300/1300/1300/1300/2
100/100/100/200/2
100/100/100/300/2
100/100/100/410/2
100/100/100/1300/2
100/200/200/200/2
200/200/200/300/2
200/200/200/410/2
200/200/200/1300/2
100/300/300/300/2
200/300/300/300/2
300/300/300/410/2
300/300/300/1300/2
100/410/410/410/2
200/410/410/410/2
300/410/410/410/2
410/410/410/1300/2
100/1300/1300/1300/2
200/1300/1300/1300/2
300/1300/1300/1300/2
410/1300/1300/1300/2
100/100/200/200/2
100/100/300/300/2
100/100/410/410/2
100/100/1300/1300/2
200/200/300/300/2
200/200/410/410/2
200/200/1300/1300/2
300/300/410/410/2
300/300/1300/1300/2
410/410/1300/1300/2
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100/200/300/410/2
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100/200/410/1300/2
100/300/410/1300/2
200/300/410/1300/2
Analitycal heads
–80°
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Pour
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18 Automatic Analysers: NewLab Range
NewLab Range: some examples of combinations
NewLab 100/200 SA: Cloud Point - CFPP
NewLab 100/300: Cloud Point - Pour Point
NewLab 100/1300: Cloud Point - Cloud and Pour Point
NewLab 200/300 SA: CFPP - Pour Point
NewLab 300/1300 SA: Pour Point - Cloud and Pour Point
NewLab 200/1300: CFPP - Cloud and Pour Point
19 Automatic Analysers: NewLab Range
NewLab 100/300/410 SA: Cloud Point - Pour Point - Freezing Point
NewLab 410/200/1300: Freezing Point - CFPP - Cloud and Pour Point
NewLab 410/1300/1300/1300: Freezing Point - Cloud and Pour Point
NewLab 100/100/200: Cloud Point - CFPP
NewLab 300/300/300/200/200/200 SA: Pour Point - CFPP
NewLab 1300/1300/1300/1300/1300/1300 SA: Cloud and Pour Point
20 Automatic Analysers
OilLab Range
Main features:
- A nalyser with one test position
(single head)
- E xternal cooling circulator (cryostat)
required
- Bench model
Dimensions cm
- widht 60
- depht 60
- height 60
Weight kg
- 40
OilLab 300 – Pour Point
- Technical features
as for
NewLab 300
OilLab 100 – Cloud Point
- Technical features
as for
NewLab 100
OilLab 200 – CFPP
- Technical features
as for
NewLab 200
OilLab 410 – Freezing Point
-T
echnical features
as for
NewLab 410
OilLab 1300 – Cloud and Pour Point
- Technical features
as for
NewLab 1300
21 Automatic Analysers: NewLab Range
NewLab 225 – Filter Plugging Tendency
ASTM D2068 – IP 387
Subject
Determination of the filter plugging
tendency (FPT) of distillate fuel oils where
the end use demands an exceptional
degree of cleanliness.
This test method is applicable to fuels within
the viscosity range of 1.50 to 6.00 mm 2/s
(cSt) at 40°C.
Main Features
-A
nalyser managed by an integrated
touch screen panel PC by means of the
dedicated software working in Windows ®
ambient TFT/LCD 6.4”
-R
esolution 640 × 480 and 262K colours
I/O ports:
1 × USB for connection to an external
printer and /or external PC
-S
torage capacity
for more than 60’000 analysis
-B
ench top analyser
- I nstrument equipped with a built-in
cooling system with single stage gas
motor compressor CFC free
-B
ath made in aluminium
Measuring devices
- P T100 Sensors Class A
- L evel sensor 0 … 300 ml
- P ressure sensor 0 to 210 KPa
Technical Features
- B ath / Sample Temperatures: °C / °F
(selectable)
- M easuring range: +80°C…-50°C
- B ath temperature: -10°C … +40°C
- P ump flow rate: 20 ml/minute
Software
Main features
- U ser friendly interface
- R eal time display of all the analytical
parameters
- S torage of all the analysis
- S torage of the results in Excel ® format
- D isplay of the graphic
- P rintable results
Measuring principle
-A
sample of the fuel to be tested is passed
at a constant rate of flow (20 ml/minute)
through a glass fiber filter medium.
-T
he pressure drop across the filter
is monitored during the passage of a
fixed volume of test fuel. If a prescribed
maximum pressure drop is reached
before the total volume of fuel is filtered,
the actual volume of fuel filtered
at the time of maximum pressure drop
is recorded and used to obtain
the automatic calculation result.
-O
therwise if the prescribe volume
is filtered without reach the 105kPa
pressure, the maximal pressure
during the test is recorded and used
to obtain the result.
NewLab 225
Calibration
- A utomatic calibration
of each temperature probe by means
of the calibration decade box
- S torage of the data referred
to the calibration
- L ast calibration date referred to each
single probe displayed
Diagnostic
- A ccess to all analogue and digital signals
(inlet and outlet) in order to verify their
functioning.
Accessories
1820-8013: Glass Microfiber Filter,
 13 mm, 100/pk
22 Automatic Analysers: NewLab Range
LTFT – NewLab 226
Filterability of Diesel Fuels by Low-Temperature Flow Test
NewLab 226
23 Automatic Analysers: NewLab Range
LTFT – NewLab 226
Filterability of Diesel Fuels by Low-Temperature Flow Test
ASTM D4539
Subject
This test method covers estimating
the filterability of diesel fuels in some
automotive equipment at low temperatures.
The Low Temperature Flow Test results
are indicative of the low temperature flow
performance of the test fuel in some diesel
vehicles.
The test method is especially useful for the
evaluation of fuels containing flow improver
additives in a range of+10°C … -30°C.
Measuring LTFT principle.
Up to 6 300 ml test vessels are cooled
at a specified rate of 1°C/h and, at every °C
of cooling, a vacuum of 20 kPa is applied
to a filter assembly immersed in the first
sample.
If the sample recovered in a graduated
receiver vessel reaches the 180 ml in 60
sec. the analysis continues to the further
1°C test temperature (passed).
When the sample doesn’t reach the 180 ml
within the 60 sec. the test is failed.
The temperature of the last passing result
test has to be recorded as minimum LTFT
pass temperature.
The instrument is a six places floor model,
equipped with a built in cooling system
with motor compressor CFC free for
temperatures up to -45°C.
Fully automatic, controlled by dedicated
panel pc with touch screen and a large
display.
All the parameters and the current status
of the analysis are shown in real time.
Measuring LTFT devices
- Aspiration pipette
- Filter assembly
- Light barrier
Measuring temperature probe
- Platinum resistance PT100 class A
Vacuum system:
- Micropump 350 kPa
-E
lectronic control for vacuum regulation
20 kPa
- Vacuum stabilizer
Measuring Parameters
- Temperature: in °C
- Measuring range: +80°C…-80°C
- Resolution: 0.06 °C
- Accuracy: ± 0.1 °C
-R
epeatability / reproducibility
as per standards methods or better
The analyser is managed by the Lab-Link
software,
that is easy to use and that allows the
operator to be up to date with his needs of
modernity since compatible with Windows ®
/ XP / Vista operating systems.
The USB port grants to the customer the
maximal flexibility allowing the connection
to an external printer and also to an other
external PC.
Integrated managing panel PC
- with TFT 12” touch screen
- Amd Geode800
- 512Mb Ram
- 2 × USB
- 1 × LAN 10/100Mbps
- 262K colours
- 1024 × 768 resolution
- storage capacity up to 60.000 analisys
The main Software features includes:
- User friendly interface
- All analytical parameters recorded
- C ustomisable analysis parameters
and methods
- Customizable results report
- Printable graphs and results
Analysis Menu
- S tandard method as per ASTM D4539
- O ptional methods:
· T-sample, T-bath (Delta T constant)
· selectable cooling rate °C / h
· selectable bath steps temperature
· fast bath with selectable temperature
- A udible alarm and displayed messages
at the end of the analysis and in case
of errors and/or malfunctions
- T he parameters displayed and updated in
real time are:
· sample temperature
· bath temperature
· vacuum pressure
· level light value
· aspiration time
- T hanks to an istogram (graph) that
shows the aspiration times it is possible
to observe the behaviour of the sample
during its cooling phase
- T his feature is an excellent tools
for the observation and evaluation of the
additivations actions and behaviour
Diagnostic Menu
- D irect access to all analog, digital,
inputs and outputs
- Selectable value displaying: °C / Volt
- Vacuum data displayed in mBars
Calibration Menu
- A utomatic calibration
of each temperature probe
- Automatic calibration of vacuum sensor
- L ast calibration date referred
to each single probe displayed
and relative data printable
- Display of calibration diagram
- Insertion of offset values
- Standard and advanced calibration modes
Data Utilities
- F ields for introduction of operator
and product name
- Archive viewer for files recall
- A ll analysis stored
in Excel ® compatible format
- S torage capacity
for more than 60’000 analysis
- LIMS compatible
Cooling System
Integrated gas CFC free motor compressors
single stage (for temperatures up to -45°C)
Safety Devices
-P
ressure controller
for 1 st stage motor compressor
- Thermo-switch for cooling / heating jacket
- M otor compressors with internal overload
devices
Electrical Supply
- 220V ± 15% / 50 to 60 Hz
- 115V ± 15% / 60 Hz
Cord Cable
3 conductors flexible cable 2 m (7 feet)
length with PVC sheath oil and heat
resistant as per CENELEC directives
Ambient Temperature
- max 32°C, H.R. 80%
Dimensions (cm)
- widht 98
- depht 60
- height 130
Weight
- 80 kg
Spare Parts
LAB-220/005-03: heather + auto adhesive
+ insulation
LAB-220/005-04: thermo switch
LAB-220/005-06: PT100 bath
LAB-220/008-12: PT100 sample
LAB-220/007-02: static relay
LAB-220/007-04: PCB fuse 1 AT
(box of 10 pcs)
LAB-220/006-01: cooling fluid valve
+ fitting
LAB-220/002-02: vacuum valve + fitting
LAB-220/007-01: main electronic
board LTFT
LAB-220/008-04: 300 ml glass
specimen vessel
LAB-220/008-05: 400 ml glass
receiver vessel
LAB-220/009-07: rubber stopper
for receiver
LAB-220/009-08: lid for specimen vessel
LAB-220/008-13: glass aspiration
tubing “s”
LAB-220/008-14: glass receiver tubing “l”
LAB-220/008-15: glass vacuum tubing “xs”
LAB-220/008-18: joints vinyl tubes
(pack of 12 pcs.)
LAB-220/013-01: filter assembly
LAB-220/013-02: filter
LAB-220/013-021: o-ring for filter
Calibration Tools
OilLab 80:
calibration decade box PT100 simulator
OilLab 81:
set of connectors and cables for cold range
24 Automatic Analysers: OilLab Range
OilLab 500 Automatic – Ring and Ball Tester
OilLab 500
25 Automatic Analysers: OilLab Range
OilLab 500 Automatic – Ring and Ball Tester
ASTM D36 - ASTM E28
EN 1427
IP 58
ISO 4625
DIN 52011
NF T 66-008
AASHTO T53
JIS K2207
CE Marked
Subject
Softening point of bitumen, bituminous
binders, hot coatings, tar, tall oil rosins,
waxes, polymeric resins.
Measuring Ring-and-Ball Principle
The sample is heated in a liquid bath
respecting the heating rate prescribed by
the standards test methods. During this
procedure the product gradually become
softer and when the test ball fall a distance
of 25 mm the softening point is determined.
Measuring Ring-and-Ball Devices
-T
esting unit equipped
with 2 steel balls 9.5mm Ø 3.5 gr
-M
echanical ring holder and assembly,
made of brass, support for 2 test rings,
centering guide
-H
eating plate
-H
eat resistant glass Beaker, 800 ml
capacity
-2
indipendent detection systems including
high precision laser emission and accurate
phototransistor receiver.
Measuring Temperature Probe
- Platinum resistance PT100 Class A
Measuring Parameters
- Temperatures: in °C
- Measuring range: 0°C … +250°C
- Resolution: 0.06 °C
- Accuracy: ± 0.1 °C
- R epeatability / Reproducibility: as per
standards methods or better
Integrated panel PC
- TFT/LCD 6.5”
- Resolution 640 × 480 262K colours
- U SB port for connection to an
external printer and/or external PC
- S torage capacity for more
than 60’000 analysis
Software Features
The LabLink software is Windows ® Based
- All analytical parameters recoded
- Customisable analysis parameters and
methods
- Customizable results report
- Printable graphs and results
- S elf-identification of the typology
of the analysers connected
The software includes:
Analysis Menu
- S tandard method as per ASTM / IP / ISO /
EN / DIN… norms of reference
- Unknow sample
- A udible alarm and displayed messages
(at the end of the analysis and in case of
errors and/or malfunctions)
Diagnostic Menu
- Direct access to all analog, digital, inputs
and outputs
- Selectable value displaying: °C / Volt
Calibration Menu
- Automatic calibration of each temperature
probe
- L ast calibration date referred to each
single probe displayed and relative data
printable
- Display of calibration diagram
- Insertion of offset values
- Standard and advanced calibration modes
Data utilities
- F ields for introduction of operator
and product name
- Archive viewer for files recall
- A ll analysis stored in Excel ®
compatible format
- S torage capacity for more
than 60’000 analysis
- LIMS compatible
Heating
- Electrical heater
- Equipped with over temperature cut-out
Cooling System
- Air forced ventilation fan
Electrical Supply
- 220V ± 15% / 50 to 60 Hz
- 115V ± 15% / 60 Hz
Cord cable:
- 3 conductors flexible cable 2 m (7 feet)
length
with PVC sheath oil and heat resistant
as per CENELEC directives
Ambient Temperature
- Max 35°C
- H.R. 80%
Dimensions (cm):
- width 48
- depth 30
- height 52
Weight:
- 25 kg
Accessories:
LAB-500/005-06:
LAB-500/008-05:
LAB-500/008-18:
LAB-500/171-01:
PT100 bath
protective shields
forceps
steels balls, 50 pz.
26 Automatic Analysers: OilLab Range
OilLab 580 – Noack
OilLab 580
27 Automatic Analysers: OilLab Range
OilLab 580 – Noack
ASTM D5800
IP 421
Subject
Determination of the evaporation loss
of lubricating oils (particularly engine oils).
Procedure A uses the Noack evaporative
tester equipment;
Procedure B uses the automated
non-Woods metal Noack evaporative
apparatus.
Measuring Noack Principle
A quantity of 65 grams of sample is heated
to a specific temperature and maintained
for 1 hour while it is enclosed in a crucible,
the crucible’s cover is shaped to allow a
constant vacuum of -2 mbar to remove from
the crucible the evaporating portion of the
sample. At the end of the test, the sample is
cooled and then reweighted: the difference,
reported in percentage, represent the
sample’s Evaporation Loss by the Noack
Method.
Method A: bath is controlled at 250°C;
Method B: the sample is controlled at
245.2°C.
Measuring temperature probes
- Platinum resistance, PT 100, precision A
Class
Measuring parameters
Temperatures: in °C
Testing span: 225°C to 275°C
Measuring span: 0°C to 320°C
Resolution: 0.01 °C
Accuracy: ± 0.2 °C
Repeatability, Reproducibility:
according ASTM D5800 or better
Crucible, Crucible Cover and Heating Block
- S ame dimensions and volume
as ASTM D5800
Heating unit
- Electrical resistance, 420 W
Vacuum Pump
- E quipped with high resistant Kalrez valve,
inlet filter to remove product residuals
- A utomatic electronic control system able
to maintain the -2mB during the analysis
- Low voltage power supply
Fine tuning
- B y means of an external potentiometer
a finest adjustment can be made in order
to calibrate the integrated vacuum sensor
Integrated panel PC
- TFT/LCD 6.5”
- Resolution 640 × 480 262K colours
- U SB port for connection to an
external printer and/or external PC
- S torage capacity for more
than 60’000 analysis
Software Features
The LabLink software is Windows ® Based
- All analytical parameters recorded
-C
ustomisable analysis parameters
and methods
- Customizable results report
- Printable graphs and results
The software includes:
Analysis Menu
- S tandard method as per ASTM / IP / ISO /
EN / DIN… norms of reference
- Unknow sample
- A udible alarm and displayed messages
(at the end of the analysis and in case of
errors and/or malfunctions)
Diagnostic Menu
- Direct access to all analog, digital, inputs
and outputs
- Selectable value displaying: °C / Volt
Calibration Menu
- A utomatic calibration
of each temperature probe
- L ast calibration date referred to each
single probe displayed and relative
data printable
- Display of calibration diagram
- Insertion of offset values
Data utilities
- F ields for introduction
of operator and product name
- Archive viewer for files recall
- A ll analysis stored in Excel ® compatible
format
- S torage capacity for more
than 60’000 analysis
- LIMS compatible
Dimensions
- Length: 400 mm
- Width: 450 mm
- Max. height: 450 mm
Weight
- 22 Kg
Calibration Tools
- O illab 80:
calibration decade box – PT100 simulator
- O illab 81:
set of connectors and cables
for cold range
Electrical Supply
- 220V ± 15% / 50 to 60 Hz
- 115V ± 15% / 60 Hz
Cord cable:
- 3 conductors flexible cable 2 m (7 feet)
length with PVC sheath oil and heat
resistant as per CENELEC directives
Ambient Temperature
- Max 35°C, H.R. 80%
Accessories
LAB-580-1001: Glassware acc. CEC
L40-A-93: 1 complete set comprising
2 glass bottles 2 litres capacity,
with the necessary rubber bungs,
glass delivery tubes (internal Ø 4 mm)
and silicone tubings
LAB-580-1002: Stand for glass bottles,
including inclined manometer
0 to 50 mm water
LAB-580-1003: Evaporation crucible
LAB-580-1009: Noack reference oil, 1 Ltr
LAB-580-0010: Noack software
evaluation tools
Spare parts
LAB-580/008-12: PT100 sample
LAB-580/11-01: Silicon tubing 2 m
LAB-580/013-02: Air filter
LAB-580/007-01: Main electronic board
Noack
LAB-580-1003: Evaporation Crucible
LAB-580-0011: Hook wrench
LAB-580-0012: Pliers
LAB-580-0013: Crucible holder
LAB-580-0014: Test balls (pack of 10 pcs.)
LAB-580-0015: Nozzle cleaner
LAB-580-0016: Gloves
LAB-580/006-03: Main electronic board
LAB-580/05-23: Heater
LAB-580/08-14: PT100 bath
28 Automatic Analysers: OilLab Range
OilLab 600 – Pensky Martens
➍
➌
➊
➋
29 Automatic Analysers: OilLab Range
OilLab 600 – Pensky Martens
ASTM D93 procedures A, B, C
- ASTM D3941 - ASTM E502
DIN 51578
EN 22719
IP 34
ISO 2719
Subject
Flash Point on petroleum products, gas oils,
fuel oils, lubrificants, biodiesel. Suitable
for flash point detection on different
substances, waste materials, solvents…
Measuring Pensky Martens Principle
The sample is heated and stirred at
specified rates, using one of three defined
procedures (A, B, or C). An ignition source
is directed into the test cup at regular
intervals with simultaneous interruption of
the stirring, until a flash is detected.
Measuring Parameters
- Temperatures: in °C
- Measuring range: +35°C … +370°C
- Resolution: 0.01 °C
- Accuracy: ± 0.1 °C
-R
epeatability / reproducibility as per
standards methods or better
Ignition system:
-G
as with flame exposure device ➊
and / or
- Electric Lighter with electrical ignitor ➋
Measuring Temperature Devices
-S
ample temperature is measured
with a platinum resistance PT100
Class A with SS sheath and high
temperature resistant silicone cable
- B ath temperature is measured with
a PT100 sensor
Dual flash point detection system
- By ionisation ring ➌
- By thermal sensor
Barometric sensor
- Built-in sensor with automatic correction
of results to a barometric pressure
of 101.3 kPa automatically performed
by the software at the end of analysis
Heating
- E lectrical heater with heating rates
as per procedures A, B, C
Cooling
- Built-in forced air fan
Test Cup
- M ade of brass and provided with an high
temperature resistant handle
- With sample level mark
Stirrer
- A n electric motor drives a flexible
transmission coil allowing the stirring
of the product. Stirring speed
as per selected procedures A, B, C
Shutter
- A utomatic mechanism opening the shutter
for the dip-in of the ignition device
Safety features
- G as valve for closing the gas supply
(max 30 mBar), at the end of the test
- O verheating protection with auto shut
off during the test
- A uto fire detection by means of thermal
fuse with acoustic alarm ➍
Integrated touch sceen panel PC
- TFT/LCD 6.4”
- Resolution 640  480 262K colours
- 2  USB port for connection to
an external printer and/or external PC
Lab-Link managing software
The software includes:
Analysis Menu
- A utomatic execution of the analysis
in accordance to the selected procedure
(Standard method as per ASTM / IP
/ ISO / EN / DIN… norms of reference
as well as costumized procedures)
- A utomatic handling of samples with
unknown flash point
- D isplay in real time of all the analysis
parameters and status
- F ields for introduction of operator
and product name
- E xpected flash point temperature
programmable
- A udible alarm and displayed messages
at the end of the analysis and in case
of errors and/or malfunctions
- C onfiguration menu with up to 20 preset
samples and expected flash point
- Automatic barometric correction of results
Diagnostic Menu
- D irect access to all analog, digital,
inputs and outputs
- Selectable value displaying: °C / Volt
Calibration Menu
- A utomatic calibration of each
temperature probe
- U p to 100 calibration points (standard
with 5 and dynamic with up to 100 points)
- P rogrammable calibration frequency
with selectable validity period and notice/
lock-down at expiration date
- L ast calibration date referred to each
single probe displayed and relevant data
printable
- Display of calibration diagram
Data utilities
- Archive viewer for files recall
- A ll analysis stored in Excel ® compatible
format as well as in jpg format
- S torage capacity for more than
60’000 analysis
- LIMS compatible
Electrical Supply
- 220V ± 15% / 50 to 60 Hz
- 115V ± 15% / 60 Hz
Cord cable:
- 3 conductors flexible cable with schuko plug
Ambient Temperature
- Max 35°C
- H.R. 80%
Weight:
- 27 kg
Dimensions (cm):
- width 48, depth 30, height 52
Spare Parts
LAB-600/05-23:
LAB-600/06-21:
LAB-600/07-01:
LAB-600/07-03:
LAB-600/07-04:
LAB-600/07-05:
LAB-600/08-12:
LAB-600/08-13:
LAB-600/08-14:
LAB-600/08-17:
LAB-600/08-66:
LAB-600/09-04:
LAB-600/09-05:
LAB-600/09-06:
complete with
LAB-600/09-07:
LAB-600/10-04:
LAB-600/10-05:
LAB-600/11-01:
LAB-600/11-02:
LAB-600/12-01:
for ignitor
LAB-600/20-01:
heater collar
gas valve
electrical ignitor
micro switch
handle
gas ignitor
PT100 product
d
etection / ionisation cable
PT100 Bath
thermal detector
thermal fuses
gas reducer
calibrated brass crucible
calibrated brass crucible
movement
c
over cup movement only
PCB fuses, box of 10
main electronic board
silicon tubing, 1 meter
stirrer / flexible
voltage transformer
support PT100 Teflon
Calibration Tools
- O ilLab 80: calibration decade box – PT100
simulator
- O ilLab 84: set of connectors and cables
for flash range
30 Automatic Analysers: OilLab Range
OilLab 620 – R.E.C.C. Rapid Equilibrium Closed Cup
OilLab 620
OilLab 620 SA
Automatic opening, closing and positioning of
the sliding shutter.
The test cup is completely made of aluminium
and is equipped with a high temperatures
resistant o-ring, allowing an uniform sealing of
the closing cover.
31 Automatic Analysers: OilLab Range
OilLab 620 – R.E.C.C. Rapid Equilibrium Closed Cup
ASTM D3828
IP 303
ISO 3679
Subject
These test methods cover procedures for
the determination of the flash point by a
small scale closed tester. The procedures
may be used to determine the actual flash
point temperature of a sample or whether
a product will or will not flash at a specified
temperature (flash/no flash).
Measuring R.E.C.C. Principle
A specimen of a sample is introduced
by means of a syringe into the cup of
the selected apparatus that is set and
maintained at the specific temperature/
expected flash point. After a specified time
a test flame is applied and the observation
made whether or not a flash occurred.
Measuring R.E.C.C. Devices
-T
esting unit equipped
with two ignition systems
- Electrical system or flame exposure device
- F lash point detected by a ionization system
Measuring Temperature Probe
- Platinum resistance PT100 class A
Measuring Parameters
- Temperatures: in °C
- Measuring range: –50°C … +350°C
- Resolution: 0.06 °C
- Accuracy: ± 0.1 °C
- R epeatability / reproducibility
as per standards methods or better
Software Features
The LabLink software is Windows ® based
and is able to manage up to 10 analytical
heads simultaneously
- User friendly interface
- All analytical parameters recorded
-C
ustomizable analysis parameters
and methods
- Customizable results report
- Printable graphs and results
-S
elf-identification of the typology
of the analysers connected
Particular attention has been paid to
the heating system allowing the best heat’s
transmission without dispersion on air. The
power of the heater is therefore of only
420W but allows to obtain a temperature
higher than 370°C.
The software includes:
Analysis Menu
- S tandard method as per ASTM / IP / ISO /
EN / DIN… norms of reference
- Unknow sample
- A udible alarm and displayed messages
at the end of the analysis and in case of
errors and/or malfunctions
Diagnostic Menu
- D irect access to all analog, digital, inputs
and outputs
- Selectable value displaying: °C / Volt
Calibration Menu
- A utomatic calibration
of each temperature probe
- L ast calibration date referred to each
single probe displayed
and relative data printable
- Display of calibration diagram
- Insertion of offset values
- Standard and advanced calibration modes
Data utilities
- F ields for introduction
of operator and product name
- Archive viewer for files recall
- A ll analysis stored
in Excel ® compatible format
- S torage capacity
for more than 60’000 analysis
- LIMS compatible
Integrated panel PC
- TFT/LCD 6.4”
- Resolution 640 × 480 262K colours
- U SB port for connection to an external
printer and/or external PC
Test Cup
- T he cup is made of aluminium and
equipped with high temperature resistant
o-ring
Heating
- Electrical heating cartridges
- Equipped with over temperature cut-out
Shutter
-A
utomatic mechanism opening the shutter
conform to the methods
Electrical Supply
- 220V ± 15% / 50 to 60 Hz
- 115V ± 15% / 60 Hz
Cord cable:
-3
conductors flexible cable with schuko
plug
Ambient Temperature
- Max 35°C
- H.R. 80%
Dimensions (cm):
width 31, depth 47, height 52
Weight: 27 kg
Spare Parts
LAB-620/05-13:
LAB-620/06-21:
LAB-620/07-01:
LAB-620/07-03:
LAB-620/07-05:
LAB-620/08-12:
LAB-620/08-13:
LAB-620/09-04:
LAB-620/10-04:
LAB-620/10-05:
LAB-620/11-01:
LAB-620/12-01:
for ignitor
LAB-620/13-01:
o-ring for cup
heating cartridges
gas valve
electrical ignitor
micro switch
gas ignitor
PT100 sensor
d etection / Ionisation cable
gas reducer
PCB fuses, box of 10
main electronic board
silicon tubing, 1 meter
voltage transformer
high temperature resistant
Calibration Tools
-O
ilLab 80:
calibration decade box – PT100 simulator
-O
ilLab 81: set of connectors
and cables for cold range
Cooling System
- Air fan
Warning light and acoustic signal
When the test temperature is reached, the
light blink and an acoustic signal is emitted
to inform the operator that the sample must
be injected. If the injection of the sample is
not performed and confirmed the signal will
be repeated after 30 seconds.
The ionisation components are the essential
flash point detection system that grants
excellent results and high repeatability. The
quantity of sample (2 ml / 4 ml) is injected into
the cup throught the filling orifice.
The instrument is equipped with two ignition
systems. An electric pilot that ignites the test
flame 30 seconds before the test.
32 Automatic Analysers: OilLab Range
OilLab 650 – Abel
OilLab 650
OilLab 650 SA
33 Automatic Analysers: OilLab Range
OilLab 650 – Abel
EN 924 - EN 13736
IP 170 - IP 491 - IP 492
ISO 1516 - ISO 3679 - ISO 13736
Subject
Flash point on petroleum products having
a flash point between -18°C and 71°C
(kerosene and solvents). Suitable for flash
point detection on different substances
and waste materials, solvents…
Measuring Abel Principle
The sample is warmed up according
to the methods. When the sample reaches
the selected test temperature, the shutter
is opened and the ignition system
introduces itself automatically. If the flash
point is reached, the detection is done by
an ionisation detector. If not, the shutter
closes again and the sample continues to
warm up until the next test temperature.
Measuring Abel Devices
-M
easurement of the Flash Point detected
by an ionisation detector
- Testing unit equipped with two ignition
systems
- Electrical system or flame exposure device
Measuring Temperature Probe
- Platinum resistance PT100 Class A
Measuring Parameters
- Temperatures: in °C
- Measuring range: -50°C … +100°C
- Resolution: 0.06 °C
- Accuracy: ± 0.1 °C
- R epeatability / reproducibility
as per standards methods or better
Software Features
The LabLink software is Windows ® based
and is able to manage up to 10 analytical
heads simultaneously
- User friendly interface
- All analytical parameters recorded
- C ustomizable analysis parameters
and methods
- Customizable results report
- Printable graphs and results
- S elf-identification of the typology
of the analysers connected
The software includes:
Analysis Menu
- S tandard method as per ASTM / IP / ISO /
EN / DIN… norms of reference
- Unknow sample
- A udible alarm and displayed messages
at the end of the analysis and in case of
errors and/or malfunctions
Diagnostic Menu
- D irect access to all analog, digital,
inputs and outputs
- Selectable value displaying: °C / Volt
Calibration Menu
- A utomatic calibration
of each temperature probe
- L ast calibration date referred to each
single probe displayed and relative
data printable
- Display of calibration diagram
- Insertion of offset values
- Standard and advanced calibration modes
Data Utilities
- F ields for introduction of operator and
product name
- Archive viewer for files recall
- A ll analysis stored in Excel ®
compatible format
- S torage capacity
for more than 60’000 analysis
- LIMS compatible
Integrated panel PC
- TFT/LCD 6.4”
- Resolution 640 × 480 262K colours
- U SB port for connection to an external
printer and/or external PC
Test Cup
- T he cup is made of brass provided
with high temperature resistant handle
- Sample level mark
Heating
- Electrical heater
- Equipped with over temperature cut-out
Cooling System
- L iquid refrigerant controlled by internal
solenoid valve
Stirrer
- A n electric motor drives a flexible
transmission coil allowing the stirring
of the product
Shutter
- A utomatic mechanism opening the shutter
conform to the methods
Accessories
External Cryostat:
- LT-900/35/3, single stage, up to -40°C
- LT-900/80/3, double stage, up to -80°C
Electrical Supply
- 220V ± 15% / 50 to 60 Hz
- 115V ± 15% / 60 Hz
Cord cable:
- 3 conductors flexible cable
with schuko plug
Ambient Temperature
- Max 35°C
- H.R. 80%
Weight: 32 kg
Dimensions (cm):
- width 48, depth 37, height 61
Spare Parts
LAB-650/05-13: heater
LAB-650/05-16: PT100 bath
LAB-650/06-11: cooling valve
LAB-650/06-12: insulated tube
for connection to external cryostat
LAB-650/06-21: gas valve
LAB-650/07-01: electrical ignitor
LAB-650/07-03: micro switch
LAB-650/07-04: handle
LAB-650/07-05: gas ignitor
LAB-650/08-12: PT100 product
LAB-650/08-13: d
etection / ionisation cable
LAB-650/09-04: gas reducer
LAB-650/09-05: calibrated brass crucible
LAB-650/09-06: calibrated brass crucible
complete with movement
LAB-650/09-07: cover cup movement only
LAB-650/10-04: PCB fuses, box of 10
LAB-650/10-05: main electronic board
LAB-650/11-01: silicon tubing, 1 meter
LAB-650/11-02: stirrer / flexible
LAB-650/12-01: voltage transformer
for ignitor
LAB-650/20-01: support PT100 Teflon
Calibration Tools
- O ilLab 80: calibration decade box –
PT100 simulator
- O ilLab 81: set of connectors
and cables for cold range
34 Automatic Analysers: OilLab Range
OilLab 670 – Cleveland
OilLab 670
The test cup closing system is totally
automatic and grant the maximal security as
well as the two electrical ignitors which grant
the continuous presence of the test flame.
OilLab 670 SA
35 Automatic Analysers: OilLab Range
OilLab 670 – Cleveland
ASTM D92
DIN 51376
EN 22592 (obs.)
IP 36
ISO 2592
Subject
Flash and Fire Point on petroleum products,
gas oils, fuel oils, lubricants.
Suitable for flash and fire point detection
on different substances and waste
materials, having a flash point over 79°C.
Measuring Cleveland Principle
The sample is warmed up according
the methods. When the sample reaches
the selected test temperature, the flame
is passed automatically above the sample.
When the flash point is reached, the
detection is done by an ionisation detector.
For fire point detection, the sample
continues to be heated until permanent
flame is detected by the second PT100
probe, then the auto extinguisher
will be placed on the top of the test cup.
Measuring Cleveland Devices
- A nalyser equipped with automatic flame
exposure device
-M
easurement of the Flash Point
detected by an ionisation detector
-A
nalyser equipped with 2 electrical
ignitors and a pilot flame
-M
easurement of the Fire Point detected
by PT100 detector
Measuring Temperature Probe
- Platinum resistance PT100 Class A
Measuring Parameters
- Temperatures: in °C
- Measuring range: +79°C … +400°C
- Resolution: 0.06 °C
- Accuracy: ± 0.1 °C
-R
epeatability / reproducibility
as per standards methods or better
- All analytical parameters recorded
- C ustomizable analysis parameters
and methods
- Customizable results report
- Printable graphs and results
- S elf-identification of the typology
of the analysers connected
The software includes:
Analysis Menu
- S tandard method as per ASTM / IP / ISO /
EN / DIN… norms of reference
- Unknow sample
- A udible alarm and displayed messages
at the end of the analysis and in case of
errors and/or malfunctions
Diagnostic Menu
- D irect access to all analog, digital, inputs
and outputs
- Selectable value displaying: °C / Volt
Calibration Menu
- A utomatic calibration
of each temperature probe
- L ast calibration date referred to each
single probe displayed and relative data
printable
- Display of calibration diagram
- Insertion of offset values
- Standard and advanced calibration modes
Data Utilities
- F ields for introduction of operator and
product name
- Archive viewer for files recall
- A ll analysis stored
in Excel ® compatible format
- S torage capacity
for more than 60’000 analysis
- LIMS compatible
Integrated panel PC
- TFT/LCD 6.4”
- Resolution 640 × 480 262K colours
- U SB port for connection to an external
printer and/or external PC
Software Features
The LabLink software is Windows ® based
and is able to manage up to 10 analytical
heads simultaneously
- User friendly interface
Test Cup
- T he cup is made of chromium plated
brass provided with high temperature
resistant handle
- Sample level mark
The Flash Point detection system, which is
composed by a ring sensor for the ionization’s
determination, constitutes the essential
component granting high repeatability and
excellent results. Furthermore, a sensor
detects the presence of the flame for fire point
determination. The device are mounted on a
mechanical arm with automatic positioning
during analysis.
The test flame pilot is equipped with a flame
size regulator as well as a position and
direction device for a fine adjustment.
Heating
- Electrical heater
- Equipped with over temperature cut-out
Electrical Supply
- 220V ± 15% / 50 to 60 Hz
- 115V ± 15% / 60 Hz
Cord cable:
-3
conductors flexible cable
with schuko plug
Ambient Temperature
- Max 35°C
- H.R. 80%
Dimensions (cm)
- width 48, depth 37, height 61
Weight
- 32 kg
Spare Parts
LAB-670/05-13: heater (heating plate)
LAB-670/05-26: PT100 for fire point
detection
LAB-670/06-21: gas valve
LAB-670/07-01: electrical ignitor,
pack of 2 pcs.
LAB-670/07-02: gas ignitor
LAB-670/07-03: micro switch
LAB-670/07-04: handle
LAB-670/08-12: PT100 for flash point
detection
LAB-670/08-13: d
etection / ionisation cable
LAB-670/09-04: gas reducer
LAB-670/09-05: calibrated chromium
plated brass crucible
LAB-670/10-04: PCB fuses, box of 10
LAB-670/10-05: main electronic board
LAB-670/11-01: silicon tubing, 1 meter
LAB-670/12-01: voltage transformer
for ignitor
Calibration Tools
-O
ilLab 80: calibration decade box –
PT100 simulator
-O
ilLab 81: set of connectors
and cables for cold range
36 Automatic Analysers: OilLab Range
OilLab 690 – Tag
OilLab 690
OilLab 690 SA
37 Automatic Analysers: OilLab Range
OilLab 690 – Tag
ASTM D56 - D3278 - D3934 - D3941
IP 304 - IP 491 - IP 492
ISO 1516 - ISO 1523 - ISO 3679
Subject
Flash point on petroleum products having
a flash point between ambient temperature
and +93°C. Suitable for flash point
detection on different substances
and (NO) waste materials, solvents…
Measuring Tag Principle
The sample is warmed up according to the
methods. When the sample reaches the
selected test temperature, the shutter is
opened and the ignition system introduces
itself automatically. If the flash point is
reached, the detection is done by an
ionisation detector. If not, the shutter closes
again and the sample continues to warm up
until the next test temperature.
Measuring Tag Devices
- M easurement of the Flash Point detected
by an ionisation detector
- Testing unit equipped
with two ignition systems
- Electrical system or flame exposure device
Measuring Temperature Probe
- Platinum resistance PT100 Class A
Measuring Parameters
- Temperatures: in °C
- Measuring range: -50°C … +100°C
- Resolution: 0.06 °C
- Accuracy: ± 0.1 °C
- R epeatability / reproducibility
as per standards methods or better
Software Features
The LabLink software is Windows ® based
and is able to manage up to 10 analytical
heads simultaneously
- User friendly interface
- All analytical parameters recorded
-C
ustomizable analysis parameters
and methods
- Customizable results report
- Printable graphs and results
-S
elf-identification of the typology
of the analysers connected
The software includes:
Analysis Menu
- S tandard method as per ASTM / IP / ISO /
EN / DIN… norms of reference
- Unknow sample
- A udible alarm and displayed messages
at the end of the analysis and in case
of errors and/or malfunctions
Diagnostic Menu
- D irect access to all analog, digital, inputs
and outputs
- Selectable value displaying: °C / Volt
Calibration Menu
- A utomatic calibration
of each temperature probe
- L ast calibration date referred to each
single probe displayed and relative data
printable
- Display of calibration diagram
- Insertion of offset values
- Standard and advanced calibration modes
Data Utilities
- F ields for introduction of operator
and product name
- Archive viewer for files recall
- A ll analysis stored in Excel ®
compatible format
- S torage capacity for more
than 60’000 analysis
- LIMS compatible
Dimensions (cm)
- width 48, depth 37, height 61
Integrated panel PC
- TFT/LCD 6.4”
- Resolution 640 × 480 262K colours
- U SB port for connection to an external
printer and/or external PC
Calibration Tools
- O ilLab 80: calibration decade box –
PT100 simulator
- O ilLab 81: set of connectors and cables
for cold range
Test Cup
- T he cup is made of brass provided
with high temperature resistant handle
- Sample level mark
Heating
- Electrical heater
- Equipped with over temperature cut-out
Cooling System
- L iquid refrigerant controlled
by internal solenoid valve
Shutter
- A utomatic mechanism opening the shutter
conform to the methods
Accessories
External Cryostat:
- LT-900/35/3, single stage, up to -40°C
- LT-900/80/3, double stage, up to -80°C
Electrical Supply
- 220V ± 15% / 50 to 60 Hz
- 115V ± 15% / 60 Hz
Cord cable:
- 3 conductors flexible cable
with schuko plug
Ambient Temperature
- Max 35°C
- H.R. 80%
Weight
- 32 kg
Spare Parts
LAB-690/05-13: heater
LAB-690/05-16: PT100 bath
LAB-690/06-11: cooling valve
LAB-690/06-12: insulated tube
for connection to external cryostat
LAB-690/06-21: gas valve
LAB-690/07-01: electrical ignitor
LAB-690/07-03: micro switch
LAB-690/07-04: handle
LAB-690/07-05: gas ignitor
LAB-690/08-12: PT100 product
LAB-690/08-13: d
etection / ionisation cable
LAB-690/09-04: gas reducer
LAB-690/09-05: calibrated brass crucible
LAB-690/09-06: calibrated brass crucible
complete with movement
LAB-690/09-07: c
over cup movement only
LAB-690/10-04: PCB fuses, Box of 10
LAB-690/10-05: main electronic board
LAB-690/11-01: silicon tubing, 1 meter
LAB-690/12-01: voltage transformer
for ignitor
LAB-690/20-01: support PT100 Teflon
38 Automatic Analysers: OilLab Range
OilLab 710 – ASVP Air Satured Vapour Pressure
OilLab 710
OilLab 710 SA
39 Automatic Analysers: OilLab Range
OilLab 710 – ASVP Air Satured Vapour Pressure
ASTM D5191
IP 394
Subject: Gasoline
Automatic analyser for determination
of Air Satured Vapour Pressure - DVPE
Principle of detection
A chamber of 15 ml is maintained at 0.1 kPa
and 37.8°C. A quantity of 3 ml of sample,
with a temperature of 0 °C, after the air
saturation procedure, is automatically
injected by means of a pneumatic injector
inside the cell of 15 ml.
Due to the temperature a certain volume
of sample changes from the liquid phase
to the gas phase.
This mutation modifies the absolute
pressure inside the chamber.
When the stabilisation of the pressure
is reached, the volume of the absolute
pressure obtained will be considered
as the total vapour pressure.
-A
utomatic system for sample conditioning
in order to maintain the product at 0 °C
- Automatic system for air saturation
- Sample injection system
- I ntegrated sample cell, maintained at a
temperature of 37.8 °C
- High quality pressure sensor
- P ressure range:
0 … 2000 mBar / 0…177kPa
- Resolution: 0.01 kPa
- Max applicable pressure: 5 Bar
- Precision: <2 mBar /  0.2 kPa
- Vacuum pump efficiency to 0.01 kPa
Touch Screen Panel PC:
- TFT/LCD 6.4”
- Resolution 640 × 480 and 262K colours
- U SB Port for connection
to external printer / PC
- L in-Tech operating software Lab-Link
running in Windows ambient
- Cord cable with Shuko plug
- User manual
Software Features
The LabLink software is Windows ® based
and is able to manage up to 10 analytical
heads simultaneously
- User friendly interface
- All analytical parameters recorded
- C ustomizable analysis parameters
and methods
- Customizable results report
- Printable graphs and results
- S elf-identification of the typology
of the analysers connected
The software includes:
Analysis Menu
- S tandard method as per ASTM / IP /
ISO / EN / DIN… norms of reference
- Unknow sample
- A udible alarm and displayed messages
at the end of the analysis and in case
of errors and/or malfunctions
Diagnostic Menu
- D irect access to all analog, digital,
inputs and outputs
- Selectable value displaying: °C / Volt
Calibration Menu
- A utomatic calibration
of each temperature probe
- L ast calibration date referred
to each single probe displayed
and relative data printable
- Display of calibration diagram
- Insertion of offset values
- Standard and advanced calibration modes
Data utilities
- F ields for introduction of operator
and product name
- Archive viewer for files recall
- A ll analysis stored in Excel ®
compatible format
- S torage capacity
for more than 60’000 analysis
- LIMS compatible
Electrical Supply
- 220V ± 15% / 50 to 60 Hz
- 115V ± 15% / 60 Hz
Ambient Temperature
- Max 35°C
- H.R. 80%
Dimensions:
- width: 30 cm
- depth: 70 cm
- height: 60 cm
Weight:
- 27 kg
Spare Parts
LAB-700-018: PT100 cell
LAB-700-019: pressure sensor 0…177 kPa
LAB-700-210: PT100 conditioning
LAB-700-022: s et of o-ring for conditioning
LAB-700-123: o-rings set for cell
LAB-700-202: solenoid valve
LAB-700-204: heater
LAB-700-210: Teflon syringe
LAB-700-255: vacuum pump
LAB-xxx/003-04: fuse 6.3 AT,
box of 10 pcs.
LAB-xxx/007-04: fuse PCB 1.6 AT,
box of 10 pcs.
Calibration Tools
- O ilLab 80: calibration decade box –
PT100 simulator
- O ilLab 81: set of connectors and cables
for cold range
40 Automatic Analysers
Thermofat Analyser – Shukoff & Tempering Applications
ThermoTwin - SA
Thermo Four
Thermo Twin
41 Automatic Analysers
Thermofat Analyser – Shukoff & Tempering Applications
ThermoTwin - SA
Main features:
-T
he analysers is managed by
an integrated touch screen panel PC
by means of the dedicated software
running in Windows ® ambient.
-B
ench top analysers with two test
positions.
- B ath made in aluminium
with integrated cooling system.
-T
he cooling of the sample happens
inside the dry cooling jacket.
-T
he instruments is equipped with motor
compressors with gas CFC free.
Dimensions
cm 34 × 50 × 50
Weight
30 kg
Power supply
220Vac 50Hz
Application
Determination of the Crystallization Point
Main characteristics
-A
utomatic Analysers for the determination
of the Shukoff and Tempering curves
- Determination of min T - max T
-A
utomatic calculation of the slope
(Q = ΔT/Δt)
-U
ser friendly
-E
asy sample preparation: with glass
bottles and / or disposable plastic cups
-R
apidity in analysis execution
-E
xcellent repeatability of the analysis
-N
o particular maintenance required
Measuring devices:
PT100 sensors class A
Technical characteristics
- Temperatures: in °C
- M easuring range: +80 °C … –50 °C
- B ath temperatures: –10 °C … +60 °C
- H eating curve: 3°C/min
- C ooling curve: 1°C/min
Software
Main features
- U ser friendly interface
- R eal time display of all the analytical
parameters
- I ndependent managing of the two / six
test positions
- S torage of all the analysis
- S torage of the results in Excel ® format
- D isplay of the graphic
- E xecution of recipes
- C urves comparison
- P rintable results
Calibration
- A utomatic calibration of each temperature
probe by means of the calibration decade
box (Art. OilLab 80-T)
- S torage of the data referred
to the calibration
- L ast calibration date referred
to each single probe displayed
Diagnostic
- A ccess to all analogue and digital signals
(inlet and outlet) in order to verify their
functioning.
Accessories
- C alibration decade box – PT100 simulator
with cable and connector for Thermofat
range (Art. OilLab 80-T)
42 Automatic Analysers: New-on-Line Range
Online Range:
New-on-Line 100, New-on-Line 300, New-on-Line 700
Vapour Pressure (New-on-Line 700) in
correlation to the norms, while guaranteeing:
-P
erennity: conceived in order to have a
raised longevity thanks to the good quality
of the mechanical, electric and electronic
components used for its manufacturing.
- S implicity: a modular architecture
of design.
- S upervision: accessible by Ethernet
network on site or by safe remotely
connection made by Internet
- Access for user and/or manufacturer.
- C onviviality: with a clear and didactic
graphic interface.
This design brings a maintainability never
reached on these analysers and don’t require
a particular maintenance.
The analysers New-on-Line determine the
Cloud Point, the Cloud Point and the ASVP
in correlation to the ASTM, IP, ISO, DIN
standards by using technologies of on-line
processes.
With a reduced time of analysis (lower than
10 minutes - Cloud Point; 10 – 40 minutes
- Pour Point; 3 – 6 minutes - ASVP) it allows
a constant control in real time of the lines
of production. The management of the
analyser is completely automatic thanks to
the dedicated software which allows the user
to supervise and visualize all the parameters
referred to the analysis in progress.
New-on-Line 100, Cloud Point:
ASTM D2500 - D5771 - D5772 - D5773
DIN 51597
IP 219 - IP 444 - IP 445 - IP 446
ISO 3015
New-on-Line 100, Pour Point:
ASTM D97 - ASTM D5853 - ASTM D5950
IP 15 - IP 441
ISO 3016
New-on-Line 700, ASVP:
ASTM D5191
Automatic process analysers - CE marked
Subject
Determination of Cloud Point
of hydrocarbon products, diesel, gasoil,
completely on line, full automatically,
extremely accurately and fast with
the New-on-Line 100.
Determination of Pour Point
of petroleum products, diesel, gasoil,
motor and engine oils, additives, lubricating
oils, completely on line, full automatically,
extremely accurately and fast with
the New-on-Line 300.
Determination of Air Satured Vapour
Pressure on gasolines, completely on line,
full automatically, extremely accurately
and fast with the New-on-Line 700.
The New-on-Line making part of the new
generation of on-line process analysers,
determines Cloud Point (New-on-Line 100),
Pour Point (New-on-Line 300), Air Satured
Determination of Cloud Point
is made by detection of light pulsed
emission, on I.R. spectrum through
a coaxial fibber optic. The dispersion
of the light is caused by the crystallization
of paraffins. These last, in phase of cooling
of the sample, disperse and absorb the
light.
Determination of Pour Point
is made by a precision pressure sensor
that measure constantly the differential
value during the test.
Determination of Air Satured Vapour Pressure
is made by a precision pressure sensor
that measure constantly the absolute value
during the test.
The analyser, by means of the Lin-Tech
software, observes and manages
the phenomenon. As soon as the result
is obtained, the cell is emptied automatically
and a new cycle of analysis starts.
Generality
- T his analyser consists a pressurised
enclosure,
EEx p for zone 1 and 2, with a CENELEC,
ATEX certification and different
accessories fixed on both sides of the
enclosure.
- T he protecting system and some EEx d
boxes are fixed on the left side, and the
analytical part fixed on the right side.
- I n the upper part of the enclosure
accessible with a door supporting
a flat screen, are enclosed, the PC,
the electronic, the interfaces and the
interlock with the terminals.
- T his analyser is supplied with some
components for the sample conditioning
procedure. In option, a complete sampling
conditioning system dedicated to a user
application can be supplied.
- T his analyser has been designed to follow
the reference standards methods.
- T he analytical cell is cooled down with
Peltier elements.
- T his type of analyser has a main
application in production unit where
the sample composition does not change
rapidly in a short period of time.
Principle of Detection – Cloud Point
- T he detection consists of an emission
of a pulsed light signal, sent through
a coaxial fibber optic.
- T he position of the fibber optic allows
the system to look to the appearance
of the crystals into the test tube.
- T he internal diameter of the test tube
is 4 mm.
- A signal is collected on the other side
of the test tube and send back
to the receptor via the fibber optic.
- T he signal is recorded and after
mathematical treatment, the value
of the temperature of the Cloud Point
is displayed. Due to the dynamical
calculation, the colour of the sample has
no effect on the detection.
Principle of Detection – Pour Point
- T he detection consists in a constant
reading of differential value of a precision
pressure sensor.
- T he position of the sensor allows the
system to observe the reducing flow inside
the test tube.
- T he signal is recorded and after
mathematical treatment, the value of the
temperature of the Pour Point is displayed.
Due to the dynamical calculation, the main
features of the sample has no effect on the
detection.
Principle of Detection – ASVP
- A chamber of 15 ml is maintained
at 0.1 kPa and 37.8°C. A quantity
of 3 ml of sample, with a temperature
of 0 °C, after the air saturation procedure,
is automatically injected by means of a
pneumatic injector inside the cell of 15 ml.
- D ue to the temperature a certain volume
of sample changes from the liquid phase
to the gas phase. This mutation modifies
the absolute pressure inside the chamber.
- W hen the stabilisation of the pressure
is reached, the volume of the absolute
pressure obtained will be considered
as the total vapour pressure.
Procedure of Analysis
- T he application software proceeds
to the draining first, by flushing the sample
to the drain.
- T his operation takes a few seconds.
The second step is to fill the test tube
on a time basis.
- W hen the time of filling is elapsed,
a seconde draining procedure can be
done if necessary.
43 Automatic Analysers: New-on-Line Range
-T
hen the analysis is started.
- A ll this procedure of draining and filing
takes 5 to 20 seconds depending on the
selection made in the set-up software.
- T he analysis time will takes:
4 to 6 minutes (Cloud Point);
lower than 10 minutes up to 40 minutes
(Pour Point);
3 minutes up to 6 minutes (ASVP).
- T he user can select the mode
of analysis and also can do alternatively
both methods.
- T he analyser can select a reference
sample from one external drum to proceed
to the validation of the analyser himself,
before to start the analysis on the product
line.
- T his type of analyser is specially designed
for production unit where the results have
to has close as possible of the ASTM
reference result from the laboratory.
Measuring Parameter
- C loud Point, Pour Point on petroleum
products and Air Satured Vapour Pressure
on gasolines according to the standards
reference methods
- Temperature in degree Celsius
- M easuring span –60°C to +60°C
(Cloud Point, Pour Point)
- M easuring span 0,15 mBar to 1200 mBar,
ABS (ASVP)
Sample Characteristic
Input analyser
- flow 10 to 20 l/h (in drain status)
- c onsumption 2 … 4 l/h
(according number of analysis)
- p ressure 0,3 – 0,6 bar
- temperature maximum + 40 °C
- c ontamination without solid particle
> 10 microns
- without presence of acid or solvent
- maximum 100 ppm water
- without traces of residue
Sampling conditioning items
- 1 ball valve stainless steel 316L
sample input
- 1 filter 10 micron
- 1 rotameter stainless steel/glass 0-40 l/h
with low flow alarm (contact NO/NC
on terminal of the analyser)
- 1 three ways solenoid valve
- 1 ball valve stainless steel 316L reference
sample input
Output analyser
As to be connected to a purge collector
supplied by user.
Specification ‘s purge collector
- atmospheric drain
- without back pressure
The purge collector has to be always below
the level of the output of the analyser
(gravity flow)
Options: sampling conditioning system
- 4 ball valves
- filter in line
- water heat exchanger
- 2 rotameters
- 1 solenoid three ways valve for sample
reference input
- pressure reducer
Utilities
Air supply (shut-off valve supply by the user)
- without oil and dust
- dew point max –20°C
- pressure 4 to 7 bars
- consumption about 30 Nm3/h
Water (shut-off valve supply by the user)
- clean without sludge or particles
- input pressure min 1 bars, max 3 bars
- d ifferential pressure input/output
min 1 bars
- temperature max +15°C
- consumption max 300 l/h
Power supply
- 220V / 5% / 50Hz / 2 KVA
- 380V / 5% / 50Hz / 1,5 KVA three-phase
Control Unit
The control unit assembly is mounted
internally into the pressurised enclosure.
This assembly include:
-P
anel PC working
on Window ® based application
- I nterface boards, input/output digital
and analogic
- Power supply DC
- Light boards IR
Interface
- I nput/output modules,
with galvanic separation
Local Display
- F lat screen (15’/17’) touch screen
and/or 4 buttons for control functions
connected by the panel PC.
Informations Displayed
Record of all the critical parameter‘s display
of the last 30 results from the application
software
- Alarm with description of the default
- Access to all the function‘s
- No programation required
- All results stored on hard disk
Software
- U sed with the 4 push buttons
front door mounted
- Cloud Point application
- Pour Point application
- ASVP application
- S et up software (purge time, drain time,
4 to 20 mA range, record span etc.)
- Calibration software
- Maintenance software
Analytical Cell
- T he analytical cell is mounted externally
on the pressurised enclosure
- The cell is cooled by Peltier element
- Analysis cycle time is 4 to 6 minutes
Repeatability
- 0.5 °C (Pour Point, Cloud Point)
- 5 mBa (ASVP)
Resolution
- 1 mBa (ASVP)
Internal Security
- Watch-dog
- B y PC or interlock watch-dog default, the
watch dog turn off the electrical power of
all the components except the PC
Alarm Output
- Default analyser: 1 contact
- Low sample flow: 1 contact
- Low water flow: 1 contact
Input Signal
- 1 Contact, stand by,
analysis cycle interrupted
- 1 Contact, start analysis,
restart of an analysis cycle
Output Signal
- 4 to 20 mA accessible from the set-up
linear module, galvanic separation, max
load 600 Ohms
Cooling Devices
- T he analytical cell is cooled
by Peltier element
- Water cooled of the hot side
of the Peltier element
- L owest cell temperature –35°C
(with cooling water at +10°C)
Ambient Conditions
- Temperature + 5°C to + 40°C
- HR 80% maximum
- N o excess of dust
or corrosive atmosphere
- Installation: analyser house or shelter
Radio Electric Perturbation
- F or all the standard frequencies don’t
use radio at less than one meter
ot the analyser
Classification
- C lassification EEx p II B T 6 / according
CENELEC 50016
- Option : EE × P II C T6
Fittings
- Input/output sampling tubing 4/6 mm
- Air supply ¼ and ¾” NPT female
- Gland PG 13 or PG 16
Enclosure
- Class IP 65
Special Options
- Serial line RS 422 Modbus protocol
- C alibration decade box,
ISO 9002 for PT 100
(supplied with connectors)
- R eference sample for validation
of the analyser
- S ampling conditioning system,
according application
Procedure of Control Before Dispatch
- Electronic calibration
- A nalytical calibration on reference
certified samples
- C ontrol of functionality on certified sample
in sample loop with about 100 results
- C ertificate supplied on the status
of calibration and tests done
44 Automatic Analysers: New-on-Line Range
Usefulness ASVP
- T he instrument is equipped with Peltier
elements.
- T he cooling water can be supplied by an
already existing water line or by external
chillers (option available upon request)
- Sample conditioning at 0°C
- Pneumatic injector of 3 ml sample quantity
- M easuring cell at 37.8 °C with pressure
sensor
- L oading valve, draining valve and sample
depressurization in bottle
- Vacuum pump
- C ontrol system for pneumatic valves
and pressure regulator
- P T100 temperature probe for conditioning
and measuring cell
Usefulness Cloud Point and Pour Point
The instrument is equipped with Peltier
elements. Cooling water can be supplied by
an already existing water line or by external
chillers, option available upon request.
- C ooling liquid - water: +10°C … 15 °C
Measuring range: +40°C … -30°C
- C ooling liquid - Cold water: + 5°C … 0°C
Measuring range: +40°C … -40°C
-C
ooling liquid - medium:
(water + glycol) -10°C … -20°C
Measuring range: +40°C … -50°C
- Purity: clean, free of dirt and particles
- Flow: 2 … 60 l/m
- Max pressure: 3 bars
- Min pressure: 1 bars
Characteristics of the Sample
- Flow: 10…30 l/h in rinsing phase
- C onsumption: 2 … 5 l/h, depending
on analysis numbers
- Pressure: Min 0,3 bar / Max 0,8 bar
- C ontamination
· Without solid particles > 10 microns
· Without acid and solvent presence
· Max 100 ppm of water
- I nlet temperature
· Cloud Point, Pour Point: max 40 °C
· M in +10°C above the higher Cloud Point/
Pour Point result
· ASVP: max 35 °C
1/4” (1938) Instrument gas 1/4
Supply 220V
1/4” (1592) Water Input
Pressure Box
Analyser Acces
Gas Supply 3/4” NPTF
Screen
1/4” (1409) Sample Input
Sample Conditionning
Pressurization indicator
2002
Supply 220V
Interface Box JB4
Customer Cable
Reset
Measure Ready
Default
Alarm Pressure
Cell Analytical
Earthing
Earthing
Water return
Main Switch
Shelter
Customer Cable Supply 220 V
380 V Vacuum Pump Switch
Customer Cable Measures 4/20 mA
1/2” (567) Atmospheric Drain
Power Supply 415 tri
Flame Arrestor
Power Supply 415 tri
1400
600
450
150
600
600
250
Cell and Sample
Conditionning
50
Analyser
Access
45 Automatic Analysers: New-on-Line Range
ZENER
Light detection
EEXP
cabinet
PT100
product
New-on-Line 100, New-on-Line 300
Dangerous zone
Fibre optic
Peltier
Filling
2
1
We made design and technology.
These features improves the quality of the
analyser.
All the electronic boards are developed in our
facilities.
Our know out at your service.
The simplicity of the mechanical parts
and supports give the best point of view
during the services.
0
Thermostat
Cell
ZENER
PT100 Cell
Drain
4 × 6 mm
Sample inlet
Sample outlet
Cooling water inlet 4 × 6 mm
Cooling water outlet 4 × 6 mm
Circuit diagram
Sample rotometer
Water rotometer
Water arrival (4 × 6)
Insulating valve
Filling valve
Sample return (4 × 6)
Drain (4 × 6)
Fiber optic
2 poles connector
for PT 100 product calibration
3 poles connector
for bath calibration
Measuring cell
Measuring tube
Fiber optic
PT 100 bath
PT 100 sample
Water return (4 × 6)
46 Automatic Analysers: New-on-Line Range
New-on-Line 700
Instrument Gas
Cooling Device for Transistors
and for Peltier Elements
4 Bars
200 mBars
1 Bars
Calibration
Injector
Atmosphere
Thermostat default
Cooling Water
Sample
Eexe
Eexe
500 mBars
Bowling
Eexe
Eexe
Drain
Vacuum
Eexe
Close Down
Gasoline Drain
Gasoline from Unit
Gasoline Return
Ballast
M
Vacuum Pump
Gas reducer (2.5 bars)
Gas supply filter reducer (4 bars)
Gas micro filter (0.01µm)
Gas instrument inlet
Water flowmeter(scale 10-100 l/h)
1. Pneumatic injector
Cooling water input
Detector of bistable threshold
Product flowmeter (scale 4-40 l/h)
Sample reducer with pressure gauge
Sample input
Line filter (60 µm) SS-4TF-60
Manual shut off valve fast loop sample out SS-42S4
Safety relief valve SS-RL3S4
Injection solenoid valve
2. Measuring cell
Sample output
Manual shut off valve fast loop sample in SS-42S4
1
2
4
3
PT100 conditioner
Connector 3 poles PT100 conditioner
Gas blowing 3 ways solenoid valve
Sample overflow to atmospheric drain
Gas saturation assembly equipped with Peltier
Analytical cell
Close top cell piston
PT100 cell
Close bottom cell piston
Pressure sensor
Calibrate cork
Cooling water output
Vacuum solenoid valve
Circuit braker switch
Vacuum pump
Sample drain solenoid valve
Ballast solenoid valve
Atmospheric drain (cell purge) 1/4”
Triphase to vacuum pump
Power 415 Tri
3. Loading valve
and draining valve
4. Pressure regulator
Eexe IIT4
220/380 Tri Vac 50Hz
WaterReturn
Cooling Water
Close Top
47
Manual
and
semi-automatic
analysers
48 Aniline
Aniline Point
LT/AP-215000-A/M
LT/AP-215000-B/M
49 Aniline
Aniline Point
ASTM D611-A-B-C-D
IP 2-A-B-C-D
ASTM D611-A, IP 2-A
Aniline Point and Mixed Aniline Point
of Petroleum Products and Hydrocarbon
Solvents
Method A is suitable for transparent
samples with an initial boiling point above
room temperature and where the aniline
point is below the bubble point and above
the solidification point of the aniline-sample
mixture.
ASTM D611-B - IP 2-B
Aniline Point and Mixed Aniline Point
of Petroleum Products and Hydrocarbon
Solvents
Method B, a thin-film method, is suitable for
samples too dark for testing by Method A.
ASTM D611-C - IP 2-C
Aniline Point and Mixed Aniline Point
of Petroleum Products and Hydrocarbon
Solvents
Methods C is for samples that may vaporize
appreciably at the aniline point.
ASTM D611-D - IP 2-D
Aniline Point and Mixed Aniline Point
of Petroleum Products and Hydrocarbon
Solvents
Method D is for samples that may vaporize
appreciably at the aniline point, particularly
suitable where only small quantities of
sample are available.
Art. LT/AP-215000-A/M:
Aniline Point ASTM D611-A
- Electric heater device
- Pyrex ® jacket Ø 40 × 175 mm height
- Pyrex ® test tube Ø 25 × 150 mm height
- Manual stirrer
- Caps
- Support
Art. LT/AP-215000-B/M
Aniline Point “Thin-film” ASTM D611-B
- Electric heater device
- 600 ml Pyrex ® jar
- Adjustable support for pumping motor
- Gauged body pump made in Pyrex ®
- C ontrol box with speed variator
for pumping and sample stirring
also controlling the intensity
of a low voltage lamp
- Blocking cover
- Manual bath stirrer
- Pyrex ® cell
- Stainless steel pump
- Cooling coil
Art. LT/AP-215000-C/M
Aniline Point “Tube” ASTM D611-C
- Electric heater device
- Test tube 22 mm Ø × 150 mm height
- Caps
- Support
Art. LT/AP-215000-D/M
Aniline Point ASTM D611-D
- Electric heater device
- Test tube Ø 22 mm
- Caps
- Support
Power Supply:
220Vac 50/60 Hz
Dimensions:
cm 40 × 50 × 60
Weight:
kg 8
Accessories for Art. LT/AP-215000-A/M
LT/B-2470/ BC150: balance
T-AS33C: thermometer ASTM 33C IP 20C
T-AS33F: thermometer ASTM 33F
T-AS34C: thermometer ASTM 34C IP 21C
T-AS34F: thermometer ASTM 34F
T-AS35C: thermometer ASTM 35C IP 59C
T-AS35F: thermometer ASTM 35F
Spare Parts for Art. LT/AP-215000-A/M
LAB-102-151: external jacket pack of 2
LAB-102-152: test tube, pack of 2
LAB-102-153: manual stirrer
LAB-102-154: caps, pack of 2
LAB-150-110: electronic regulator
LAB-110-022: heater
Accessories for Art. LT/AP-215000-B/M
LT/B-2470/ BC150: balance
T-AS33C: thermometer ASTM 33C IP 20C
T-AS33F: thermometer ASTM 33F
T-AS34C: thermometer ASTM 34C IP 21C
T-AS34F: thermometer ASTM 34F
T-AS35C: thermometer ASTM 35C IP 59C
T-AS35F: thermometer ASTM 35F
Note:
for Aniline Point Met. B “Thin Film”
are required two thermometers
of the same range.
Spare Parts for Art. LT/AP-215000-B/M
LAB-102-155: Pyrex ® jar, pack of 2
LAB-102-156: Pyrex ® test cell
LAB-102-157: manual stirrer for bath
LAB-102-159: Pyrex ® pump
LAB-150-033: lamp 12V 3W, pack of 10
LAB-150-110: electronic regulator
LAB-110-022: heater
Accessories for Art. LT/AP-215000-C/M
T-AS33C: thermometer ASTM 33C IP 20C
T-AS33F: thermometer ASTM 33F
T-AS34C: thermometer ASTM 34C IP 21C
T-AS34F: thermometer ASTM 34F
T-AS35C: thermometer ASTM 35C IP 59C
T-AS35F: thermometer ASTM 35F
Spare Parts for Art. LT/AP-215000-C/M
LAB-102-151: external jacket, pack of 2
LAB-102-160: test tube, pack of 2
LAB-102-153: manual stirrer
LAB-102-161: caps, pack of 2
LAB-150-110: electronic regulator
LAB-110-022: heater
Accessories for Art. LT/AP-215000-D/M
LT/DO-248000/N: natural ventilation oven
T-AS33C: thermometer ASTM 33C IP 20C
T-AS33F: thermometer ASTM 33F
T-AS34C: thermometer ASTM 34C IP 21C
T-AS34F: thermometer ASTM 34F
T-AS35C: thermometer ASTM 35C IP 59C
T-AS35F: thermometer ASTM 35F
Spare Parts for Art. LT/AP-215000-D/M
LAB-102-151: external jacket pack of 2
LAB-102-162: bulb
LAB-102-153: manual stirrer
LAB-102-161: caps pack of 2
LAB-150-110: electronic regulator
LAB-110-022: heater
50 Bitumen
Distillation
of Bituminous Products
Ductilometer
ASTM D402
Distillation of Cut-back Asphaltic
(Bituminous) Products
ASTM D113
IP 32 (obs.)
Art. LT/CB-106000/M
Electric Distillation
of Cut-back Asphaltic Apparatus
ASTM D402
- Electric heater
- 500 ml side arm distillation flask
- C himney Ø 117 mm
with insulated metal shield
- Insulated cover split in two halves
- Lamp screen Ø 100 mm
- Two sheets of 16 mesh gauze
- Cylinder lamp 100 ml
- Empty tube glass cooler
- Nozzle extensor made in glass
- Ball 500 ml
- S upported on a height
adjustable platform
Accessories
T-AS8C: thermometer ASTM 8C - IP 6C
Spare Parts
LAB-101-181:
LAB-101-051:
LAB-101-052:
LAB-101-053:
LAB-101-054:
LAB-101-055:
LAB-101-056:
LAB-150-110:
LAB-110-022:
LT/CB-106000/M
flask 500 ml
chimney Ø 117 mm
clamp
boss head
ring
glass cooler
adapter
electronic regulator
heater
Ductility of Bituminous Materials
The ductility of a bituminous material
is measured by the distance to which it will
elongate before breaking when two ends
of a briquet specimen of the material are
pulled apart at a specified speed and at
a specified temperature. Unless otherwise
specified, the test shall be made at a
temperature of 77 + 0.9°F (25 + 0.5°C)
and with a speed of 5 cm/min ± 5.0%.
At other temperatures the speed should
be specified.
Art. LT/DU-73000/M
Ductilometer - ASTM D113
- T hree-place stainless steel structure
with a 1.500 mm stroke
- Transmission of 10 revolutions
on square-thread traction rod
- Speed 5 cm/min
- One-phase Geared motor ¼ Hp
- Stainless steel tank with white bottom
- Insulated walls
- A rmoured stainless steel heater
controlled by a digital thermoregulator
with over-temperature alarm
and probe PT100A
- Cooling coil
- Traction brass carriage holding moulds
- Circulation pump for stirring the liquids
-
-
One-phase geared motor ¼ Hp
Stainless steel tank with white bottom
Insulated walls
A rmoured stainless steel heater controlled
by a digital thermoregulator with overtemperature alarm and probe PT100A
Safety thermostat
Cooling coil
Traction brass carriage holding moulds
Circulation pump for stirring the liquids
Power Supply
220Vac 50/60 Hz
Dimensions
cm 140 × 60 × 60
Weight
kg 60
Accessories
LAB-100-731: ductility form made in brass
LAB-100-732: form storage
Spare Parts
LAB-100-731:
LAB-100-732:
LAB-100-733:
LAB-150-036:
LAB-160-014:
LAB-140-001:
Art. LT/DU-73000-R/M
Refrigerated Ductilometer - ASTM D113
- T hree-place stainless steel structure
with a motion of 1500 mm
- R efrigerating system
for 5°C tests temperatures
- Transmission of 10 revolutions
on square-thread traction rod,
speed of 5 cm/min
LT/DU-73000-R/M
ductility form
form storage
white glass
stirring pump
digital thermoregulator
probe PT100
51 Bitumen
Float Test
Fraass
ASTM D139
Float Test for Bituminous Materials
This test method covers the float test
for bituminous materials.
DIN 52012
IP 80
Art. LT/FT-270000/M
Float Test ASTM D139
-A
luminium cup
with 3 standard brass collars
Spare Parts
LAB-102-701: aluminium cup
LAB-102-702: brass collar
Breaking Point of Bitumen – Fraass Method
This test method covers the determination
of the temperature at which a bitumen
tends to break rather than to flow when
stressed.
The Fraass Breaking Point is the
temperature at which the first cracks
appear in the coating.
It can be applied by any homogeneous
road or industrial bitumen.
Art. LT/FA-252000/M
Fraass Apparatus IP 80
- 2 concentric resin tubes topped
by two clamps for the plate
- Flexing brass system
- Harmonic steel plate 41 × 20 × 0.15 mm
- C ooling system with 3 concentric glass
tubes and funnel
- Cork stopper
Art. LT/FA-252000-BIS/M
Fraass Apparatus IP 80
- 2 concentric resin tubes topped
by two clamps for the plate
- Flexing brass system
- Harmonic steel plate 41 × 20 × 0.15 mm
- C ooling system with 3 concentric
glass tubes and funnel
- Cork stopper
- Dewar jar
Accessories
LT/HD-1280/S6: heating device unit - 600 W
LAB-102-529: support
T-IP42C: thermometer IP 42C
Spare Parts
LAB-102-521: Fraass plate, pack of 25
LAB-102-522: external glass tube
LAB-102-523: median glass tube
LAB-102-524: internal glass tube
LAB-102-526: cork stopper, pack of 3
LAB-102-527: flexing brass system
LAB-102-528: dewar jar
(only for 252000-BIS)
LT/FT-270000/M
LT/FA-252000/M
LAB-102-529
52 Bitumen
Ring and Ball
ASTM D36
IP 58-B
Softening Point of Bitumen
(Ring and Ball Apparatus)
This test method covers the determination
of the softening point of bitumen in the
range from 30 to 157°C (86 to 315°F) using
the ring and ball apparatus immersed
in distilled water (30 to 80°C), USP glycerine
(above 80 to 157°C), or ethylene glycol
(30 to 110°C).
Art. LT/RB-217000-B/M
Ring and Ball Apparatus ASTM D36
- Pyrex ® jar Ø 85 × 130 mm
-T
wo-places brass cage adjustable
in height
- 2 hardened steel balls Ø 9.5 mm
- 2 rings with collar for centring the balls
- Heating device unit and motor stirrer
Power Supply
220Vac 50/60 Hz
Accessories
LAB-102-170/C: rings with collars IP,
pack of 2
T-AS15C: thermometer ASTM 15C - IP 60C
T-AS15F: thermometer ASTM 15F
T-AS16C: thermometer ASTM 16C - IP 61C
T-AS16F: thermometer ASTM 16F
Spare Parts
LAB-102-170/B: ring and ball set
composed by Pyrex ® jar Ø 85 × 130 mm,
two-places brass cage adjustable
in height, 2 steel balls Ø 9.5 mm,
2 rings with collar for centring the balls
LAB-102-171: balls pack of 50
LAB-102-172: Pyrex ® Jar
LAB-102-173: cage
LAB-102-176: ring ASTM, pack of 2
LAB-102-177: collar ASTM, pack of 2
LAB-102-178: ring IP, pack of 2
LAB-102-179: collar IP, pack of 2
LAB-150-110: electronic regulator
LAB-110-022: heater
Dimensions
cm 40 × 40 × 60
Weight
kg 5
LAB-102-170/B
LT/RB-217000-B/M
53 Bitumen
Residue by Distillation
of Emulsified Asphalts
Loss on Heating
ASTM D244 - ASTM D6997
ASTM D6
IP 45
ASTM D244 - Emulsified Asphalts
These test methods and practices cover
the examination of asphalt emulsions
composed principally of a semisolid
or liquid asphaltic base, water, and an
emulsifying agent.
ASTM D6997 - Emulsified Asphalts
This test method covers the quantitative
determination of residue and oil distillate
in emulsified asphalts composed principally
of a semisolid or liquid asphaltic base,
water, and an emulsifying agent.
Art. LT/RD-271000/M
Residue by Distillation Apparatus for
Emulsified Asphalts ASTM D244 - D6997
-A
luminium alloy boiler
with anular gas lamp for heating
-C
onnection glass tube
with protection shield
- Glass condenser for water circulation
- Graduated cylinder 100 ml
- Thermometer ASTM 7C
- Supporting ring
- Bases with rods
- Pliers
Loss on Heating
of Oil and Asphaltic Compounds
This test method covers the determination
of the loss in mass (exclusive of water) of oil
and asphaltic compounds when heated.
Art. LT/LH-256000/M-G/F
Loss on Heating Oven Test ASTM D6
- O uter body in steel coated
in epoxy anti-acid paint.
- I nner structure in stainless steel AISI 304
with rounded corners
- I nternal dimensions
mm w403 x d370 x h458 approx.
- I nternal axle Rotating at 5-6rpm controlled
by a geared motor located on the oven top
for the relevant container support
(to be ordered separately)
- D ouble insulation door with silicone seal
to prevent heat loss.
- D oor equipped with toughened glass
window having a size of 200x200 mm
- T hermal insulation with mineral fibre.
- D igital display P.I.D. Thermostat to ensure
good stability.
- Temperature range from +5°C
above ambient to +280°C.
-R
esolution 1°C.
- E quipped with security thermostat
- F orced ventilation with manual flow control
opening
Power Supply:
- 220Vac 50/60 Hz
Dimensions:
- cm 60 × 80 × 80
Weight:
- kg 30
Accessories
LAB-102-562: container made in brass
Spare Parts
LAB-102-562: c ontainer
made in brass ASTM D6
LAB-102-561: support for ASTM D6
(9 places)
T-AS13C: thermometer ASTM 13C IP 47C
LAB-160-015: digital thermoregulator
LAB-140-001/A: probe PT100
Spare Parts
LAB-102-711: anular gas lamp
LAB-102-712: connection glass tube
LAB-102-713: glass condenser
LAB-102-714: graduated glass cylinder
LAB-102-715: complete boiler
T-AS7C: thermometer ASTM 7C - IP 5C
LT/TF-256000/M-G/F
LT/RD-271000/M
54 Bitumen
Rolling Thin-Film
ASTM D2872
EN 12607
ASTM D2872
Effect of Heat and Air
on a Moving Film of Asphalt
(Rolling Thin-Film Oven Test)
This test method is intended to measure
the effect of heat and air on a moving film
of semi-solid asphaltic materials.
The effects of this treatment are determined
from measurements of the selected
properties of the asphalt before and after
the test.
EN 12607
Determination of the Resistance to Hardening
under the Influence of Heat and Air
Art. LT/RT-255000-ASTM/M
Rolling Thin-Film Oven Test - ASTM D2872
- Completely made in stainless steel
- Forced ventilation
- A luminium carriage rotating at 15 rpm
(circular and vertical)
with 8 places for glass containers
- I nternal fan controlled
by a 1,725 rpm motor
LT/RT-255000-ASTM/M
- Copper coil with nozzle pre-heating the air
- Flowmeter with regulating valve
-D
igital thermoregulator PID with overtemperature
alarm and probe PT100A
- D ouble wall locking door
with toughened glass window
- I nside dimensions:
381 × 483 × 445 mm ± 13 mm
Art. LT/RT255000-EN/M
Rolling Thin-Film Oven Test - EN 12607
- Completely made in stainless steel
- Forced ventilation
- A luminium carriage rotating at 15 rpm
(circular and vertical) with 8 places
for glass containers
- I nternal fan controlled
by a 1,725 rpm motor
- Copper coil with nozzle pre-heating the air
- Flowmeter with regulator valve
- D igital thermoregulator PID with overtemperature alarm and probe PT100A
- D ouble wall locking door with toughened
glass window
- I nside dimensions:
340 × 405 × 445 mm ± 15 mm
Power Supply
220Vac 50/60 Hz
Dimensions
cm 60 × 80 × 60
Weight
kg 30
Accessories
LAB-102-551: container made in glass
T-AS13C: thermometer ASTM 13C IP 47C
Spare Parts
LAB-102-551: container
LAB-102-552: v-type belt, pack of 2
LAB-160-015: digital thermoregulator
LAB-140-001/A: probe PT100
55 Bitumen
Thin-Film Oven Test
ASTM D1754
EN 12607-2
Effect of Heat and Air on Asphaltic Materials
(Thin-Film Oven Test)
This test method covers the determination
of the effect of heat and air on a film
of semisolid asphaltic materials.
The effects of this treatment are determined
from measurements of selected asphalt
properties before and after the test.
Art. LT/TF-257000/M Thin-Film Oven Test
ASTM D1754, EN 12607-2
- Completely made in stainless steel
- Natural ventilation
- I nternal support with diameter
of 315 mm and rotating at 5-6 rpm
controlled by a geared motor located
on the oven top and fitted with 2 places
for stainless steel containers having
a diameter of 140 mm
- D igital thermoregulator PID
with over-temperature
alarm and probe PT100A
- D ouble wall locking door
with toughened glass window
having a size of 100 × 100 mm
- Thermometer ASTM 13C
LT/TF-257000/M
Power Supply:
220Vac 50/60 Hz
Dimensions:
cm 60 × 80 × 80
Weight:
kg 30
Accessories
LAB-102-572: container
made in stainless steel
Spare Parts
LAB-102-572: container
LAB-102-571: support
T-AS13C: thermometer ASTM 13C - IP 47C
LAB-160-015: digital thermoregulator
LAB-140-001/A: probe PT100
56 Calorimetry
Heat of Combustion
LAB-102-063 + LT/CV-207000/M + LT/MB-206000/M
LT/MB-206000/M + accessories
57 Calorimetry
Heat of Combustion
ASTM D240 - ASTM D2382 (obs.)
- ASTM D3286 (obs.) ASTM D4809
- ASTM D5865
IP 12
ISO 1716
ASTM D240 - IP 12
Heat of Combustion of Liquid Hydrocarbon
Fuels by Bomb Calorimeter
This test method covers the determination
of the heat of combustion of liquid
hydrocarbon fuels ranging in volatility
from that of light distillates to that
of residual fuels.
ASTM D4809 - ASTM D2382 (obs.)
Heat of Combustion of Liquid Hydrocarbon
Fuels by Bomb Calorimeter (Precision Method)
This test method covers the determination
of the heat of combustion of hydrocarbon
fuels.It is designed specifically for use
with aviation turbine fuels when the
permissible difference between duplicate
determinations is of the order of 0.2 %.
It can be used for a wide range of volatile
and nonvolatile materials where slightly
greater differences in precision can be
tolerated.
ASTM D5865 - ASTM D3286 (obs.)
Standard Test Method for Gross Calorific
Value of Coal and Coke
This test method pertains to the
determination of the gross calorific value
of coal and coke by either an adiabatic
bomb calorimeter.
ISO 1716
Reaction to Fire Test for Building Products
This method covers the determination
of the heat of combustion at constant
volume in a bomb calorimeter
Art. LT/MB-206000/M
Mahler Bomb (Oxygen Bomb)
ASTM D240 - D4809 - D5865
- Capacity 300 ml
-C
ompletely made in stainless steel
included the two electrodes
- Cover with threaded displacing ring
- Gasket around the cover edge
- Automatic inlet valve
- Pin exhaust valve
- Tested at 210 bar
Boiling Point
Art. LT/CV-207000/M
Calorimeter Vessel
- Tank with double jacket
made in stainless steel 18/8
- Capacity 3 litres
- Handle for extraction
- 2 sectors polycarbonate cover
with holes for the passing of stirrer
- Blade stirrer
- Motor stirrer 100 rpm 24V with support
- Double pliers for thermometer
- Connection for Mahler bomb electrodes
- Vessel fitted with ignition device including:
low voltage outlet, start pushbutton,
24 V socket for motor stirrer, ammeter
Art. LT/CV-207000-S/M
Calorimeter Vessel, without Ignition Device
- Tank with double jacket
made in stainless steel 18/8
- Capacity 3 litres
- Handle for extraction
- 2 sectors polycarbonate cover with holes
for the passing of stirrer
- Blade stirrer
- Motor stirrer 100 rpm 24V with support
- Double pliers for thermometer
- Connection for Mahler bomb electrodes
ASTM D1120
Boiling point of engine coolants
Covers the determination of the equilibrium
boiling point of engine coolants
Art. LT/BP-232000/M
Boiling Point ASTM D1120
- 1 00 ml round-bottom short-neck,
heat resistant glass flask with standard
taper, female ground-glass joint
and side-entering tube for the introduction
of the thermometer
- C ondenser: water-cooled reflux
glass-tube type
- H eating mantle with rod, clamp and pliers
- T hermometer ASTM 2C
Spare Parts
LAB-102-321: flask
LAB-102-322: condenser
T-AS2C: thermometer ASTM 2C
Accessories
LT/B-2470/BC150: balance
LAB-102-061/C: crucible IP 12 made in
stainless steel AISI 316 (25/20) with edge
LAB-102-063: reducer gear for O 2
with pressure gauge, safety valve
LAB-102-064: support for cover
LAB-102-065: press for tablets
LAB-102-067: benzoic acid for tablets,
pack of 100 g
LAB-102-068: benzoic acid tablets 1g ±0.1,
pack of 10
LAB-102-074: sieve Ø 100 mm,
650 mesh/cm² with head and cover
LAB-102-071/A: chromel ignition wire 5 m
LAB-102-071/B: platinum ignition wire 10 cm
LAB-100-332: digital stopwatch
T-AS116C: thermometer ASTM 116C
T-AS117C: thermometer ASTM 117C
T-AS56C: thermometer 56C
T-AS56F: thermometer 56F
T-BECK: thermometer of Beckmann
Spare Parts
LAB-102-061/A: dish quartz, cap.3 ml
LAB-102-061/C: crucible IP 12 made in
stainless steel AISI 316 (25/20) with edge
LAB-102-071/A: chromel ignition wire 5 m
LAB-102-071/B: platinum ignition wire 10 cm
LAB-102-066: gasket pack of 10
LT/BP-232000/M
58 Centrifuge
Centrifuge ASTM
ASTM D91 - D96 (obs.) - D893 - D1290
- D1796 - D1966 - D2273 - D2709 - D2711 D4007
DIN 51793
IP 75 (obs.) - IP 359
ASTM D91
Precipitation Number of Lubricating Oils
This test method covers the determination
of the precipitation number of steam
cylinder stocks and black oils, and can be
used for other lubricating oils.
ASTM D96 (obs.)
Water And Sediment In Crude Oil
This test method covers the centrifuge
method for determining sediment and water
in crude oil during field custody transfers.
ASTM D893
Insolubles in Used Lubricating Oils
This test method covers the determination
of pentane and toluene insoluble in used
lubricating oils.
ASTM D1290
Sediment in Water-emulsion Polishes
This test method covers the determination
of sediment in water-emulsion polishes by
means of a centrifuge.
ASTM D1796
Water And Sediment in Fuel Oils
This test method covers the laboratory test
for determination of water and sediment in
fuel oils by using the centrifuge method in
the range from 0 to 30 % volume.
ASTM D1966
Foots in Raw Linseed Oil
This method covers the determination
of foots in raw linseed oil by the gravimetric
method.
ASTM D2273
Trace Sediment in Lubricating Oils
This test method covers the determination
of trace amounts (less than 0.05 volume %)
of sediment in lubricating oils.
ASTM D2709
Water And Sediment in Middle Distillate Fuels
This test method covers the determination
of the volume of free water and sediment
in middle distillate fuels having viscosities
at 40°C (104°F) in the range of 1.0 to 4.1
mm/s (1.0 to 4.1 cSt) and densities in the
range of 770 to 900 kg/m.
ASTM D2711
Demulsibility Characteristics
of Lubricating Oils
This test method covers the measurement
of the ability of oil and water to separate
from each other.
It is intended for use in testing medium and
high-viscosity lubricating oils.
ASTM D4007
Water and Sediment in Crude Oil
This test method describes the laboratory
determination of water and sediment
in crude oils by means of the centrifuge
procedure.
LT/CF-122000-R/M
IP 75 (obs.) - IP 359 - DIN 51793
Water and Sediment in Fuel Oils
59 Centrifuge
Centrifuge ASTM
Art. LT/CF-122000-R/M
Heated Centrifuge ASTM D96 - D2709 D2711 - D4007
- Four place model with anti-vibration table
-S
tar wheel that has 4 rings swinging
up to 90°
- Max 2000 rpm speed
- 482.6 mm maximum rotation diameter
- S peed regulated electronically and shown
on a digital display
- C entrifuging time is set by a digital timer
which operates an electric brake when
the test is finished
- The brake can be cut out
- L id fitted with safety device which stops
the motor when the lid opens
- H eater controlled by digital
thermoregulator
and over-temperature safety thermostat
- Max temperature 70°C
Power Supply:
220Vac 50/60 Hz
Dimensions:
65 × 65 × 70 cm
Weight:
70 kg
Accessories for ASTM D91
LT/WB-123000/M: water bath
LAB-101-222: bucket in aluminium,
for 101-225 and 101-226 with rubber
pad, pack of 4
LAB-101-225: cone-shaped tube 100 ml,
203 mm, graduated to 0.05 ml, pack of 4
LAB-101-225/W: water bath rack
for 101-225, 4 places
Accessories for ASTM D96
LT/WB-123000/M: water bath
LAB-101-221: bucket in aluminium,
for 101-224, with rubber pad, pack of 4
LAB-101-222: bucket in aluminium,
for 101-225 and 101-226, with rubber
pad, pack of 4
LAB-101-223: bucket in aluminium,
for 101-227 with rubber pad, pack of 4
LAB-10-1224: pear-shaped tube 100 ml,
graduated to 0.1 ml, pack of 4
LAB-101-225: cone-shaped tube 100 ml,
203 mm, graduated to 0.05 ml, pack of 4
LAB-101-227: cone-shaped tube 100 ml,
152 mm, graduated to 0.05 ml,
pack of 4
LAB-101-224/W: water bath rack
for 101-224, 4 places
LAB-101-225/W: water bath rack
for 101-225, 4 places
LAB-101-227/W: water bath rack
for 101-227, 4 places
Accessories for ASTM D893
LT/B-2470/BC150: analytical balance
LT/DO-248000/F: drying oven
LAB-101-222: bucket in aluminium,
for 101-225 and 101-226, with rubber
pad, pack of 4
LAB-101-225: cone-shaped tube 100 ml,
203 mm, graduated to 0.05 ml, pack of 4
Accessories for ASTM D2273
LT/WB-123000/M: water bath
LAB-101-222: bucket in aluminium,
for 101-225 and 101-226,
with rubber pad, pack of 4
LAB-101-226: trace sediment tube 100 ml,
graduated to 0.005 ml, pack of 4
LAB-101-226/W: water bath rack
for 101-226, 4 places
Accessories for ASTM D2711
LT/WB-123000/M: water bath
LAB-101-220: stirrer
LAB-101-221: bucket in aluminium,
for 101-224, with rubber pad, pack of 4
LAB-101-222: bucket in aluminium,
for 101-225 and 101-226,
with rubber pad, pack of 4
LAB-101-223: bucket In aluminium,
for 101-227, with rubber pad, pack of 4
LAB-101-224: pear-shaped tube 100 ml,
graduated to 0.1 ml, pack of 4
LAB-101-225: cone-shaped tube 100 ml,
203 mm, graduated to 0.05 ml, pack of 4
LAB-101-226: T race sediment tube
100 ml, graduated to 0.005 ml, pack of 4
LAB-101-227: cone-shaped tube 100 ml,
152 mm, graduated to 0.05 ml, pack of 4
LAB-101-224/W: water bath rack
for 101-224, 4 places
LAB-101-225/W: water bath rack
for 101-225, 4 places
LAB-101-226/W: water bath rack
for 101-226, 4 places
LAB-101-234: rubber pad pack of 4
LAB-101-224: pear-shaped tube 100 ml,
graduated to 0.1 ml, pack of 4
LAB-101-225: cone-shaped tube 100 ml,
203 mm graduated to 0.05 ml, pack of 4
LAB-101-226: trace sediment tube 100 ml,
graduated to 0.005 ml, pack of 4
LAB-101-227: cone-shaped tube 100 ml,
152 mm graduated to 0.05 ml, pack of 4
LAB-101-232/A: babcock milk cap.60 ml,
div.1/50
LAB-101-232/C: babcock milk IP 190
cap. 50 ml
LAB-101-233: babcock milk
ASTM D851 - D872 - D1479 cap.45 ml
LAB-111-221: heater pack of 2
LAB-150-080: digital timer
LAB-150-039: digital tachimeter
LAB-101-238: tachimeter sensor
LAB-140-001: probe PT100 (for 1220/R)
LAB-160-014: digital thermoregulator
LAB-150-015: static relay
Accessories for ASTM D1796
LT/WB-123000/M: water bath
LAB-101-222: bucket in aluminium,
for 101-225 and 101-226,
with rubber pad, pack of 4
LAB-101-225: cone-shaped tube 100 ml,
203 mm, graduated to 0.05 ml,
pack of 4
LAB-101-225/W: water bath rack
for 101-225, 4 places
Accessories for ASTM D2709
LT/WB-123000/M: water bath
LAB-101-221: bucket in aluminium,
for 10-1224, with rubber pad, pack of 4
LAB-101-222: bucket in aluminium,
for 101-225 and 101-226,
with rubber pad, pack of 4
LAB-101-224: pear-shaped tube 100 ml,
graduated to 0.1 ml, pack of 4
LAB-101-226: trace sediment tube 100 ml,
graduated to 0.005 ml, pack of 4
LAB-101-224/W: water bath rack
for 101-224, 4 places
LAB-101-226/W: water bath rack
for 101-226, 4 places
Accessories for ASTM D4007
LT/WB-123000/M: water bath
LAB-101-222: bucket in aluminium,
for 101-225 and 101-226,
with rubber pad, pack of 4
LAB-101-225: cone-shaped tube 100 ml,
203 mm, graduated to 0.05 ml, pack of 4
LAB-101-225/W: water bath rack
for 101-225, 4 places
LAB-101-232/A: babcock milk cap. 60 ml,
div.1/50
LAB-101-232/C: babcock milk IP 190,
cap.50 ml
LAB-101-233: babcock milk
ASTM D851 D872 D1479, cap.45 ml
60 Cold Behaviour
Cloud and Pour Point
Refrigerator
LT/RB-55000/M
LT/RB-50000-W/M
LT/RB-53100/M
61 Cold Behaviour
Cloud and Pour Point
Refrigerator
ASTM D97 - ASTM D2500 - ASTM D5853
DIN 51428 - DIN 51597
IP 15 - IP 219 - IP 309
ISO 3015 - ISO 3016
Pour Point of Petroleum Products
This test method is intended for use
on any petroleum product. Suitable
for black specimens, cylinder stock,
and non-distillate fuel oil and for testing
the fluidity of a residual fuel oil at
a specified temperature is described.
Art. LT/RB-54000/M
- B ench top model made in aluminium
with epoxy anti-acid paint
- 4 dry clean wells of test
with thermometer hole
- 4 small stand-by covers
- Working temperature: up to -69°C
- 1 temperature digital controllers
resolution 0,1°
- 1 PT 100 probes class A
- 1 main switches
- CFC free gases
Cloud Point of Petroleum Products
This test method covers only petroleum
products that are transparent in layers
40 mm in thickness,and with a cloud point
below 49°C.
Dimensions
- width 66 cm
- depth 60 cm
- height 42 cm
Pour Point of Crude Oils
Weight
- 90 kg
Art. LT/RB-50000-W/M
- Floor Model
-S
tructure made in light and resistant
anodized aluminium with cover in PVC
and 4 wheels for an easy transfer
- 1 6 dry-clean wells in a liquid bath
(4 for each temperature)
with holes for the thermometers
- 16 small stand-by covers
- Working temperature:
0, -18, -33 , -51 °C
- 4 temperature digital controllers
resolution 0,1°
- 4 PT 100 probes class A
- 4 main switches
- CFC free gases
Dimensions
- width 120 cm
- depth 60 cm
- height 92 cm
Art. LT/RB-55000/M
- B ench top model made in aluminium
with epoxy anti-acid paint
- 5 dry clean wells of test
with thermometer hole
- 5 small stand-by covers
- Working temperature:
0, -18, -33 , -51, -69°C
- 5 temperature digital controllers
resolution 0,1°
- 5 PT 100 probes class A
- 5 main switches
- CFC free gases
Dimensions
- width 134 cm
- depth 60 cm
- height 42 cm
Weight
- 160 kg
Accessories
LAB-100-491: test jar, graduated glassware
ASTM, pack of 4
LAB-100-491/1: test jar, graduated
glassware ASTM pack of 5
LAB-100-492: cork cover, for centring
thermometer, pack of 4
LAB-100-492/1: cork cover, for centring
thermometer, pack of 5
LAB-100-493: cork disk,for test jar,
pack of 4
LAB-100-493/1: cork disk,for test jar,
pack of 5
LAB-100-494: insulating gasket, pack of 4
LAB-100-494/1: insulating gasket,
pack of 5
T-AS5C: thermometer ASTM 5C - IP 1C
T-AS6C: thermometer ASTM 6C - IP 2C
Spare Parts
LAB-100-491: test jar, pack of 4
LAB-100-491/1: test jar, pack of 5
LAB-100-492: cork cover, pack of 4
LAB-100-492/1: cork cover, pack of 5
LAB-100-493: cork disk, pack of 4
LAB-100-493/1: cork disk, pack of 5
LAB-100-494: insulating gasket, pack of 4
LAB-100-494/1: insulating gasket,
pack of 5
LAB-160-001: digital Thermoregulator
LAB-140-006: PT100 probe
LAB-xxx/006-01: cooling fluid valve + fitting
Electrical Supply
- 220V ± 15% / 50 to 60 Hz
- 115V ± 15% / 60 Hz
Cord cable:
3 conductors flexible cable 2 m (7 feet)
length with PVC sheath oil and heat
resistant as per CENELEC directives
Ambient Temperature
- Max 32 °C
- H.R. 80%
Weight
- 240 kg
Art. LT/RB-53100/M
- Floor Model
- S tructure made in light and resistant
anodized aluminium with cover in PVC
and 4 wheels for an easy transfer
- 2 0 dry-clean wells in aluminium block
(4 for each temperature)
with holes for the thermometers
- 20 small stand-by covers
- Working temperature:
0, -18, -33 , -51, -69°C
- 5 temperature digital controllers
resolution 0,1°
- 5 PT 100 probes class A
- 5 main switches
- CFC free gases
Dimensions
- width 170 cm
- depth 60 cm
- height 92 cm
Weight
- 302 kg
LT/RB-54000/M
62 Cold Behaviour
Cold Filter Plugging Point
CFPP
Freezing Point
of Antifreeze and Coolants
ASTM D6371
DIN 51428
EN 116
IP 309
JIS K 2288
ASTM D1177
NF T78-102
Freezing point of aqueous antifreeze
and engine coolants
Covers the determination of the freezing
point of an aqueous engine coolant solution
in the laboratory.
Cold Filter Plugging Point of diesel
and heating fuels
Determination of the cold filter plugging point
(CFPP) temperature of diesel
Art. LT/FP-238000/M
and domestic heating fuels by measuring
Electric freezing point
the temperature at which the sample ceases ASTM D1177 - NF T78-102
to flow through a wire mesh filter.
- D ouble tube Ø 20 × 230 mm fitted
with cap
Art. LT/CF-254000/M
- Dewar jar Ø 95 × 195 mm
Cold Filter Plugging Point (CFPP)
- G eared motor for stirring at 80rpm
- 3 1 × 125 mm test tube
with wire stirrer
with a set of neoprene gasket
- Digital thermometer
- 3-hole with Teflon cap
- M ounted on a plate structure painted with
- Jacket Ø 46 mm
anti-acid epoxy products
- 20 ml Pyrex pipette
- Wire filter equipped with filtering disc 325 M
Art. LT/FP-238000-2/M
- U-shaped glass pressure gauge
Electric freezing point
- 3-way cock
ASTM D1177 - NF T78-102
- Junction glass tubes
(2 places)
- Cap, bottle
Accessories
LT/RB-54000/M: cold Filter Plugging Point
refrigerator up to -69°C
LAB-2460-250: vacuum pump
LAB-100-331: analog stopwatch
LAB-100-332: digital stopwatch
T-AS5C: thermometer ASTM 5C IP 1C
T-AS6C: thermometer ASTM 6C IP 2C
Spare Parts
LAB-200/008-04:
LAB-200/008-13:
pipette CFPP
LAB-200/013-01:
LAB-200/013-02:
LT/CF-254000/M
CFPP calibrated glass cell
calibrated aspiration
filter assembly
filter
LT/FP-238000-M
Art. LT/FP-238500/M
Electric freezing point without dewar jar
ASTM D1177 - NF T78-102
- D ouble tube Ø 20 × 230 mm fitted
with cap
- G eared motor for stirring at 80rpm
with wire stirrer
- M ounted on a tripod for place
on refrigerator bench
Power Supply:
220Vac 50/60 Hz
Dimensions:
40 × 50 × 80 cm
Weight:
10 kg
Spare Parts
LAB-102-381: double tube
LAB-102-382: wire stirrer
LAB-102-383: Dewar jar Ø 95 × 195 mm
63 Cold Behaviour
Solidification Point
of Benzene
Freezing Point
of Aviation Fuels
ASTM D852
ASTM D2386
DIN 51421
IP 16
ISO 3013
Solidification Point of Benzene
This test method covers the determination
of the solidification point of benzene.
Art. LT/SP-237100/M
Solidification Point According to ASTM D852
- Dewar with metal stand
- Jacket tube
- Test tube (Benzene container)
-C
over for jacket tube with opening
for dry ice
- Stopper for test tube
- Stopper for thermometer and stirrer
Accessoires
T-AS112C: thermometer ASTM 112 C
+4°C … +6°C
Spare Parts
LAB-182-341:
LAB-152-342:
LAB-152-343:
conf.10 pz.
LAB-152-344:
LAB-152-345:
LAB-152-346:
LAB-152-347:
LT/SP-237100/M
dewar
jacket tube 25 x 150 mm
test tube 15 x 125 mm
cover for jacket tube
stopper for test tube
stopper for thermometer
stainless steel wire
Power Supply:
220Vac 50/60 Hz
Freezing point of aviation fuels
Covers the determination of the
temperature below which solid hydrocarbon
crystals may form in aviation turbine fuels
and aviation gasoline.
Art. LT/FP-237000/M
Freezing point according to ASTM D2386
- Double tube 20 × 230 mm fitted with cap
- Brass wire stirrer
- Brass stopping box
- Dewar jar 75 × 280 mm mount-based
Art. LT/FP-237500/ME
Freezing point according to ASTM D2386
- Double tube 20 × 230 mm fitted with cap
- Geared motor for stirring
- Brass wire stirrer
- Brass stopping box
- Dewar jar 75 × 280 mm mount-based
Art. LT/FP-237500-2/ME
Electric freezing point according
to ASTM D2386 (2 pl.)
LT/FP-237500-2/ME
Dimensions:
cm 80 × 50 × 80
Weight:
kg 25
Accessories
T-AS114C: thermometer ASTM 114C IP 14C
Spare Parts
LAB-102-371:
LAB-102-372:
LAB-102-373:
LAB-102-374:
double tube
wire stirrer
Dewar jar 75 × 280 mm
cap
64 Colourimetry
Saybolt Chromometer
ASTM D156
DIN 51411
Saybolt Color of Petroleum Products
(Saybolt Chromometer Method)
This test method covers the determination
of the colour of refined oils such as
undyed motor and aviation gasoline, jet
propulsion fuels, naphthas and kerosine,
and, in addition, petroleum waxes and
pharmaceutical white oils.
Art. LT/SC-208000/M
Saybolt Chromometer ASTM D156
- B lack structure supporting
two glass tubes Ø 17 × 22 mm,
one of which graduated
- Optical glass disc
- 3 whole colour disc
- 1 half colour disc
- Cock
- Mirror located on a base
- Prismatic eyepiece
Art. LT/SC-208000/PAR/M
Saybolt Heated Chromometer ASTM D156
-B
lack structure supporting
two glass tubes Ø 17 × 22 mm,
one of which graduated
- Optical glass disc
- 3 whole colour disc
- 1 half colour disc
- Cock
- Mirror located on a base
- Prismatic eyepiece
- Device and element heater
LAB-102-080 – LT/SC-208000/M
Corrosion
Cast Iron Corrosion
Accessories
LAB-102-080: daylight lamp fitted
with original blue filter and bed plated
with support that can be orientated,
with prismatic eyepiece
Spare Parts
LAB-102-083: mirror
LAB-102-083/O: prismatic eyepiece
LAB-102-084: graduated tube
LAB-102-084/M: graduated tube
mounted on metallic support
LAB-102-085: valve
LAB-102-086: plain tube
LAB-102-086/M: plain tube
mounted on metallic support
LAB-102-088: half colour disc
LAB-102-089: whole colour disc,
pack of 3
LAB-102-081: original blue glass
LAB-102-082: lamp 60W - 220V,
pack of 3
DIN 51360-1
IP 125
Determination of Cast Iron Corrosion
Characteristics of Petroleum Products
This test method detects the presence
of components in liquefied petroleum gases
which may be corrosive to copper.
Art. LT/CIR-221000/M
Cast Iron Corrosion Apparatus
- 100 × 100 × 6 mm thick cast-iron plate
- 6 × 1.53 mm wide steel chips
- S tainless steel bath fitted with digital
thermoregulator PID with overtemperature alarm and PT100A
- Motor stirrer
- P robe and digital reader that controls
the humidity rate
- Graduated pipettes
Spare Parts
LAB-102-211: cast iron plate
LAB-102-212: wide steel chips
65 Corrosion
Copper / Silver Corrosion
ASTM D130
DIN 51759
IP 154 - IP 227
ISO 2160
Detection of Copper Corrosion from Petroleum
Products by the Copper Strip Tarnish Test
This test method covers the detection
of the corrosive-ness to copper of
aviation gasoline, aviation turbine fuel,
automotive gasoline, natural gasoline or
other hydrocarbons having a Reid vapour
pressure no greater than 18 psi (124 kPa),
cleaners (Stoddard) solvent, kerosene,
diesel fuel, distillate fuel oil, lubricating oil,
and certain other petroleum products.
Silver Corrosion Aviation Fuels
This method describes a procedure
for the detection of the corrosiveness
of aviation turbine fuels towards silver.
Art. LT/CS-144000/M
Copper / Silver Corrosion Bath
- Fully made in stainless steel
- Capacity about 26 litres
-T
hermostated by a digital thermoregulator
PID that controls a temperature range
- From ambient to 100°C
-O
ver-temperature device
with alarm and probe PT100A
- Pyramid-shaped condensate cover
- Motor stirrer
- Cooling coil
Accessories
LAB-101-441/A: support for 4 copper
corrosion test vessel ASTM D130
LAB-101-441/B: test vessel ASTM D130 IP154 stainless steel 10 bar pressure
certificate
LAB-101-441/C: water-cooled condenser
cover in brass, for working 100°C
LAB-101-441/D: test tube ASTM D130 IP 154 glass, Ø 25 mm × 150 mm height,
pack of 10
LAB-101-441/E: support for 8 test tubes
Ø 25 mm
LAB-101-441/F: flat glass for protect strip
LAB-101-441/G: copper test strip,
75 × 12.5 × 2 mm, pack of 10
LAB-101-441/H: strip vice holds
one strip while polishing
LAB-101-441/I: 3 places strip vice
LAB-101-441/L: silicon carbide paper
240 grit, pack of 100
LAB-101-441/M: copper strip corrosion
standard original USA
LAB-101-441/N: copper strip corrosion
standard
LAB-101-441/O: silicon carbide grains
150 mesh, pack of 1 kg
LAB-101-452/A: silver test strip IP 227
19 × 12.7 × 3 mm
LAB-101-452/B: silver corrosion glassware
amber glass
LAB-101-452/C: cover for silver
corrosion glassware
LAB-101-452/D: tympan lass foil support
LAB-101-452/E: cooling
LAB-101-452/F: IP standard original
for silver test strip IP 227
T-AS12C: thermometer ASTM 12 C - IP 64 C
T-AS12F: thermometer ASTM 12 F - IP 64 F
Spare Parts
LAB-101-441/D: test tube ASTM D130 IP 154 glass, 25 mm Ø × 150 mm height,
pack of 10
LAB-101-441/G: copper test strip
75 × 12.5 × 2 mm, pack of 10
LAB-101-441/L: silicon carbide paper
240 grit, pack of 100
LAB-101-441/O: silicon carbide grains
150 mesh, pack of 1 kg
LAB-101-441/R: gasket, pack of 10
LAB-101-452/A: silver test strip IP 227
19 × 12.7 × 3 mm
LAB-101-452/B: silver corrosion glassware
amber glass
LAB-110-012: heater
LAB-140-002: PT100 Probe
LAB-160-014: digital thermoregulator
LAB-150-015: static relay
Art. LT/CS-144000-D/M
Copper / Silver Corrosion Dry Bath
-F
ully made in stainless steel
-D
ry bath suitable for the accommodation
of up to 8 test tube D130
-T
hermostated by a digital thermoregulator
PID that controls a temperature range
-F
rom ambient to 150°C
-O
ver-temperature device with alarm and
probe PT100A
LT/CS-144000-D/M
LT/CS-144000/M
LAB-101-441…452
66 Corrosion
Metals Corrosion
of Engine Coolants
ASTM D1384
Corrosion Test for Engine Coolants
in Glassware
This test method covers a simple beakertype procedure for evaluating the effects
of engine coolants on metal specimens
under controlled laboratory conditions.
Art. LT/MC-233000/M
Metals Corrosion Apparatus
- Thermoregulated electric-plate heater
- 1-litre beakers fitted with a rubber stopper
- Condenser
- Tube for air diffusion and cold trap
- Dewar jar on stainless steel base
- F lowmeter system complete with
flowmeter
100 ml/minute air flow - with pin valves
- Bars and pliers to support the glassware
Accessories
LAB-102-340: catalyst ASTM D1384
pack of 6
T-AS1C: thermometer ASTM 1C
T-AS1F: thermometer ASTM 1F
Spare Parts
LAB-102-340: catalyst ASTM D1384
pack of 6
Art. LT/MC-233000-4/M
Metals Corrosion Apparatus (4 places)
- Four-place device
- Thermoregulated electric-plate heater
- Stainless steel frame
- F our 1-litre beakers fitted
with a rubber stopper
- Condenser
- Tube for air diffusion and cold trap
- Dewar jar on stainless steel base
- F lowmeter system complete
with four flowmeters
100 ml/minute air flow - with pin valves
- S et of bars and pliers to support
the glassware
LT/MC-233000-4/M
LT/MC-233000/M
67 Demulsibility and Foaming
Foaming Tendencies
of Engine Coolants
Demulsibility Characteristics
of Lubricating Oils
ASTM D2711
Demulsibility Characteristics of Lubricating Oils
This test method covers the measurement
of the ability of oil and water to separate
from each other. It is intended for use
in testing medium and high-viscosity
lubricating oils.
Art. LT/DA-187000/M
Demulsibility Apparatus ASTM D2711
- Three-place bath
- Tank Ø 300 × 450 mm
-C
over with three 55 mm holes
for separatory funnels
-T
emperature is controlled by a digital
thermoregulator PID with overtemperature alarm and probe PT100A
- Motor stirrer
-S
tainless steel bar supporting
the turbine stirrer
-T
urbine stirrer from 300 to 5,000 rpm,
electronically regulated
with digitally reading
-P
late base painted
with anti-acid epoxy products
Accessories
LAB-101-871:separatory funnel Pyrex ®,
500 ml graduated, Ø 54 mm
Power Supply: 220Vac 50/60 Hz
Dimensions: 50 × 50 × 70 cm
Weight: 25 kg
Spare Parts
LAB-101-871: separatory funnel Pyrex ®,
500 ml graduated, Ø 54 mm
LAB-110-012: h eater
LAB-140-002: P
T100 probe
LAB-160-014: d igital
thermoregulator
LAB-150-015: s tatic relay
ASTM D1881
Foaming Tendencies of Engine Coolants
in Glassware
This test method covers a simple glassware
test for evaluating the tendency of engine
coolants to foam under laboratorycontrolled conditions of aeration and
temperature.
Art. LT/FT-191500/M
Coolants Foaming Apparatus - ASTM D1881
- 500 ml graduated cylinder in Pyrex ®
- diffuser stone
Accessories
LAB-101-915: Pyrex ® jar
LAB-101-916: flowmeter
LAB-101-917: compressor
LAB-1280-S6/M:heating device unit - 600 W
T-AS1C: thermometer ASTM 1C
LT/FT-191500/M
LT/DA-187000/M
68 Demulsibility and Foaming
Foaming Characteristics
of Lubricating Oils
ASTM D892
DIN 51566
IP 146
Foaming Characteristics of Lubricating Oils
This test method covers the determination
of the foaming characteristics of lubricating
oils at 24°C and 93.5°C. Means of
empirically rating the foaming tendency
and the stability of the foam are described.
Art. LT/FB-190000/M
Foaming Bath (2 places) ASTM D892
-T
ank fitted with cover with two holes
Ø 125 mm which allows two cylinders
to get through
- Cooling coil
- H eating supplied by an armoured
stainless steel heater
- P late base painted with anti-acid
epoxy products which houses a
digital thermoregulator PID with overtemperature alarm and probe PT100A
- Two independent blowing pumps
connected to two flowmeters
- Motor stirrer
- Two flowmeters
- Two graduated cylinders
- Two diffuser stones
- Two rubber plugs
- Diffuser tubes
Art. LT/FB-191000/M
Foaming Bath (4 places) - ASTM D892
- Two tanks fitted with cover
with two holes Ø 125 mm which
allows two cylinders to get through
Herschel Emulsifying
- Cooling coil
- H eating supplied by an armoured
stainless steel heater
- Two plate bases painted
with anti-acid epoxy products which
houses a digital thermoregulator PID
(one for 24°C and one for 93.5°C)
with over-temperature alarm
and probe PT100A
- Two independent blowing pumps
connected to two flowmeters
- Motor stirrer
- Four flowmeters
- Four graduated cylinders
- Four diffuser stones
- Four rubber plugs
- Diffuser tubes
Accessories
LAB-101-883/C: certified diffuser stone
LAB-101-886: air volume-meter 360 l/h
LAB-101-887: gas volume-meter set 5 360 l/h
LAB-100-331: analog stopwatch
LAB-100-332: digital stopwatch
Spare Parts
LAB-101-880: g
raduated cylinder 1000 ml
LAB-101-882: rubber plug
LAB-101-883: diffuser stone
LAB-101-883/C: certified diffuser stone
LAB-140-002: PT100 probe
LAB-160-014: digital thermoregulator
LAB-150-015: static relay
ASTM D1401
DIN 51599
ISO 6614
Water Separability of Petroleum Oils
and Synthetic Fluids
This test method covers measurement
of the ability of petroleum oils or synthetic
fluids to separate from water.
Art. LT/HE-185000/M Herschel Emulsifier
- Bath housed in a Pyrex ® tank Ø 200 mm
- S tainless steel heater controlled
by a digital thermoregulator PID
with over-temperature alarm and probe
PT100A
- Motor stirrer for bath
- C entering for 6 emulsion cylinders
mounted on a rotating plate
so the cylinders in the bath are
under the motor stirrer axle
- S quare bar supporting the motor stirrer
with stop system allowing
the exact immersion of the blade agitator
- S tainless steel blade agitator 19 × 1.5 mm
L = 120.6 mm connected to a stainless
steel 6.35 mm shaft
- P rogrammable digital timer for duration
of the test
LT/HE-185000/M
LT/FB-191000/M
69 Demulsibility and Foaming
Art. LT/HE-185000-A/M
Semiautomatic Herschel Emulsifier
-B
ath housed in a Pyrex ® tank
Ø 200 mm mounted on a painted
resistance stainless steel chassis
- Stainless steel heater
-D
igital thermoregulator
with PID temperature control
and PT100 probe A Class
-S
afety thermostat for over-temperature
protection and warning lamp
-M
otor stirrer for temperature stability
of the bath
-6
places rotating support able
to accommodate up to 6 test graduated
glass cylinders
-S
quare bar, with safety metal block,
supporting the motor stirrer with
digital display for setting and reading
current speed rotation
(adjustable range from 50 to 2000 rpm)
-S
tainless steel blade agitator
19 x 1.5 mm L = 120.6 mm with shaft
-P
rogrammable digital timer to start
and end the analysis automatically
- Double fuses for power supply protection
- Two poles main switch with operating lamp
- Cord cable
- User manual
Art. LT/HE-186000/M
Semiautomatic Herschel Emulsifier
- Bath housed in a Pyrex ® tank Ø 200 mm
- S tainless steel heater controlled
by a digital thermoregulator PID
with over-temperature alarm
and probe PT100A
- Motor stirrer for bath
- C entering for 6 emulsion cylinders
mounted on a rotating plate
so the cylinders in the bath are under
the motor stirrer axle
-S
quare bar supporting the stirrer motor
with stop system allowing the exact
immersion of the blade agitator
- S tainless steel blade agitator
19 × 1.5 mm L = 120.6 mm connected
to a stainless steel 6.35 mm shaft
- P rogrammable digital timer for duration
of the test
- T he lowering of the stirrer is electrically
commanded with shut-down of stroke end
Power Supply
220Vac 50/60 Hz
Dimensions
50 × 50 × 70 cm
Weight
30 kg
LT/HE-185000-A/M
LT/HE-186000/M
Accessories
LAB-101-851: glass cylinder Pyrex ®,
100 ml graduated
T-AS19C: thermometer ASTM 19C
T-AS19F: thermometer ASTM 19F
T-AS21C: thermometer ASTM 21C
T-AS21F: thermometer ASTM 21F
Spare Parts
LAB-101-851: glass cylinder Pyrex ®,
100 ml graduated
LAB-101-852: Pyrex ® jar
LAB-110-005: heater
LAB-140-002: PT100 probe
LAB-160-014: digital thermoregulator
LAB-150-015: static relay
LAB-150-080: digital timer
70 Densimetry
Densimetry Bath
ASTM D70 - D71 - D287 - D1298 - D1481
- E100
IP 160 - IP 189 - IP 190
ISO 3675 - ISO 3838
JIS K 2207 - JIS K 2249 - JIS K 2265
ASTM D287
Api gravity of crude petroleum
and petroleum products
Covers the determination by means
of a glass hydrometer of the API gravity
of crude petroleum and petroleum products
normally handled as liquids and having
a Reid vapour pressure (Test Method D323)
of 26 psi (180 kPa) or less.
ASTM D1298
Density, relative density (specific gravity),
or API gravity of crude petroleum
and petroleum products by hydrometer
Covers the laboratory determination using
a glass hydrometer, of the density, relative
density (specific gravity), or API gravity
of crude petroleum, petroleum products,
or mixtures of petroleum and non-petroleum
products normally handled as liquids,
and having a Reid vapour pressure
of 14.696 psi (101.325 kPa) or less.
Schilling Effusiometer
Art. LT/DB-55100/M
Digital densimetry bath with base
- Tank about 29 litres capacity
- C over with five holes Ø 51 mm
for 50 × 440 mm test tubes
- C ontrol unit in painted sheet with digital
thermoregulator PID ±0.1° with over
temperature alarm and probe PT100A
- Motor stirrer
- Stainless steel heater
- C ooling coil for working ambient
temperature
- Test tubes blocking system
Power Supply:
220Vac 50/60 Hz
Dimensions:
Ø 56 cm × 65 cm
Weight:
12 kg
Accessories
LAB-100-552/45: protection jacket
for low temperature, for tank 29 litres
LAB-100-553: test tubes 50 × 440 mm,
pack of 5
LAB-100-555: cylinder for densimetry
with foot, 450 mm height
T-AS12C: thermometer ASTM 12C - IP 64C
IP 59-C (obs.)
Density and Relative Density
The methods described are for the
determination of the density
or relative density of petroleum products
as normally handled.
Art. LT/SE-231000/M
Schilling Effusiometer - IP 59
- Glass cylinder
- C ylinder cover fitted with three sphere
valves for gas charge and flow-off
- S tainless steel orifice plate
with a gauged Ø 0.45 mm
- I nternal tube fitted
with two calibration weight lines
Spare Parts
LAB-102-311:
LAB-102-312:
LAB-102-313:
with orifice
LAB-102-314:
Spare Parts
LAB-100-553: test tubes 50 × 440 mm,
pack of 5
LAB-100-555: cylinder for densimetry
with foot, 450 mm height
LAB-140-002: PT100 probe
LAB-110-012: heater
LAB-160-014: digital thermoregulator
LAB-150-015: static relay
LT/DB-55100/M
LT/SE-231000/M
external cylinder
internal tube
stainless steel plate
rubber rings, pack of 10 pcs.
71 Distillation
Vacuum Distillation
ASTM D1160
Distillation of Petroleum Products at Reduced
Pressure
This test method covers the determination,
at reduced pressures, of the range of boiling
points for petroleum products that can
be partially or completely vaporized at a
maximum liquid temperature of 400°C.
Art. LT/VD-107000/M
Distillation of Petroleum Products at Reduced
Pressure Apparatus (Vacuum Distillation)
ASTM D1160
- Support panel and base
-5
00 ml quartz distilling flask
with thermowell
- Heating mantle (bottom and top)
-V
acuum jacketed, strip silvered column
with condensers and spherical joints
- Thermocouples with relevant adapters
- 200 ml water jacketed receiver
- Vacuum adapter
- Two Dewar-type cold traps with receivers,
stopcock drain and adapters
- Clamps for glassware assembling
Solvent Distiller
- C ontrol unit equipped with:
· 2 × Digital display
for temperatures reading
· 1 × Electronic regulator
for heating mantle
· 1 × Digital display for vacuum reading
· 1 × Vacuum regulator
Accessories
LT/TB-72200/M: transfer bath
LAB-101-073: silver chain
Spare Parts
LAB-101-073: silver chain
LAB-101-074: d
istillation flask 500 ml,
with insulating material
LAB-101-075: vacuum jacket distillation
column made in silver
LAB-101-077: jacket receiver 200 ml
LAB-101-078: cold trap
LAB-140-001: PT100 probe l = 120 mm
LAB-150-110: electronic regulator
LAB-110-024: heater
Art. LT/SD-260000/M
Solvent Distiller
- S uitable to recover non-flammable
solvents by means of heat and
condensation process
- Made entirely in stainless steel
- Two chambers: the first one is for
collecting the dirty solvent by means of a
funnel and sieve device for subsequent
distilling; the second one is for recovering
the cleaned solvent
- T hermostat automatically interrupts
heating process of first reservoir once
distillation has been completed
- Highest temperature: 150°C
- Capacity: 10 l/h
- C apacity of distillation and collecting
reservoir: 6 + 6 litres
Spare Parts
LAB-102-601:
LAB-102-602:
LAB-110-012:
LAB-150-009:
LT/SD-260000/M
LT/VD-107000/M
level indicator, pack of 2
relay
heater
thermostat 210°
72 Distillation
Distillation Units
LT/HU-99000-A/M + LT/CU-99000-B/M
LT/RDS-900
73 Distillation
Distillation Units
ASTM D86 - D216 (obs.) - D447 (obs.)
- D850 - D1078 - E133
DIN 51751
IP 123 - IP 195
ISO 3405
ASTM D86
Distillation of Petroleum Products
at Atmospheric Pressure
This test method covers the atmospheric
distillation of petroleum products using
a laboratory batch distillation unit to
determine quantitatively the boiling range
characteristics of such products as natural
gasolines, light and middle distillates,
automotive spark-ignition engine fuels,
aviation gasolines, aviation turbine fuels,
1-D and 2-D regular and low sulphur diesel
fuels, special petroleum spirits, naphthas,
white spirits, kerosines, and Grades
1 and 2 burner fuels. The test method is
designed for the analysis of distillate fuels;
it is not applicable to products containing
appreciable quantities of residual material.
ASTM D216 (obs.), ASTM D447 (obs.)
Distillation Test Method
ASTM D447 (obs.)
Test Method for Distillation of Plant Spray Oils
ASTM D850
Distillation of Industrial Aromatic
Hydrocarbons and Related Materials
This test method covers the distillation
of industrial aromatic hydrocarbons
and related materials of relatively narrow
boiling ranges from 30 to 250°C.
ASTM D1078, IP 195
Distillation Range of Volatile Organic Liquids
This test method covers the determination
of the distillation range of liquids boiling.
Between 30 and 350°C, that are chemically
stable during the distillation process, by
manual or automatic distillation procedures.
This test method is applicable to organic
liquids such as hydrocarbons, oxygenated
compounds, chemical intermediates, and
blends thereof.
ASTM E 133, IP 123, DIN 51751, ISO 3405
Standard Specification
for Distillation Equipment
This specification covers distillation
equipment used in the following
ASTM test methods: D86, D216, D447,
D850, and D1078.
Art. LT/RDS-900/SA
Semi Automatic Refrigerated Distillation Unit
Astm D86
composed by:
One Digital Heating Unit
- Completely made in stainless steel
- Wide toughened glass squared window
- R ecovery metal plate supported by a base
whose height is adjustable with elevating
system controlled by external handle
- D igital display thermo regulator with 0.1°C
resolution
- 3 programmed set points for Gasoline,
Kerosene, Gasoil for semiautomatic
operation mode
-S
ample probe PT100 made of glass with
case in stainless steel high temperature
protection silicone cable with connector
for easy removal and calibration
- P robe Stopper made of PTFE with hook
for easy removal
- Electronic regulator for manual operation
- Warming indicator Lamp
- H eating elements of 1200W composed
by twin infrared halogen heater lamp
- G lass Ceramic plate flask support
with hole ( 51mm)
- C ooling fan with green switch panel
mounted
- F ire extinguisher system composed by:
· solenoid valve
· RED emergency PUSH button
· Dedicated line internally placed
with holes for theemission of the fire
extinguisher product
· Joint for the external conection
- M ain switch power supply 230Vac 50Hz
1600W with double fuse protection
One Digital Refrigerated Condensing Unit
- I ntegrated cooling system controlled
by a settable digital thermo regulator for
temperature range from 0°C up to 60°C
- Resolution 0.1°C
- PTC Temperature probe
- C ooling system by motor compressor
with CFC free refrigerant gases
- Heating element up to 60°C
- S afety protection system for high
temperature and low liquid level
- Stainless steel liquid bath, with drain tap
- Condensing tube made in stainless steel
- I nsulated cover with hole for Thermometer
accommodation
- I nlet / outlet joints allowing the connection
to an external cryostat
- W hite background panel for easier reading
of the receiver glass cylinder level mark
- M etal support for the positioning
of the receiver glass cylinder
- P lastic cover with hole
for the glass cylinder
- Power Supply 230Vac 50Hz 1400W
Art. LT/HU-99000-A/M
Heating Distillation Unit ASTM D86
- Completely made in stainless steel
- Toughened glass window
- H eating controlled by a heating plate
electronically regulated
- P late supported by a base whose height
is adjustable with an elevation mechanism
- Controlled by and external handle
Art. LT/CU-99000-B/M
Condensing Distillation Unit ASTM D86
- Completely made in stainless steel
- C ondensing tube made in chromium
plated brass
- Insulated cover
- Connections allowing water circulation
- Drain cock
- Available right or left handed condensers
Art. LT/DD-100000/M
Double Distillation Unit ASTM D86
- Two heating distillation unit
LT/HU-99000-A/M and one condensing
distillation unit LT/CU-99000-B/M
Art. LT/FD-100500/M
Fourfold Distillation Unit ASTM D86
- F our heating distillation unit
LT/HU-99000-A/M and one condensing
distillation unit LT/CU-99000-B/M
Art. LT/DR-102000/M
Double Refrigerated Distillation Unit
- Two heating distillation unit
and a condensing distillation unit
one refrigerated by compressor controlled
by a digital thermoregulator
- CFC free refrigerant gases
Accessories
LAB-101-176: flask type A 100 ml, pack of 3
LAB-101-177: flask type B 125 ml, pack of 3
LAB-101-183: flask type C 200 ml, pack of 3
LAB-101-178: flask type D 250 ml, pack of 3
LAB-101-188: receiver type A 25 ml, pack of 3
LAB-101-187/P: receiver type B 100 ml
LAB-101-189: receiver type C 200 ml, pack of 3
LAB-101-192: ceramic flask support board
Ø 32 mm
LAB-101-193: ceramic flask support board
Ø 38 mm
LAB-101-194: ceramic flask support board
Ø 51 mm
LAB-101-197: support for cylinder in PVC,
pack of 3
T-AS2C: thermometer ASTM 2C - IP 62C
T-AS3C: thermometer ASTM 3C - IP 73C
T-AS7C: thermometer ASTM 7C - IP 5C
T-AS7F: thermometer ASTM 7F
T-AS8C: thermometer ASTM 8C - IP 6C
T-AS8F: thermometer ASTM 8C
T-AS37C: thermometer ASTM 37C - IP 77C
T-AS38C: thermometer ASTM 38C - IP 78C
T-AS39C: thermometer ASTM 39C - IP 79C
T-AS40C: thermometer ASTM 40C - IP 80C
T-AS41C: thermometer ASTM 41C - IP 81C
T-AS42C: thermometer ASTM 42C - IP 82C
T-AS102C: thermometer ASTM 102C - IP 83C
T-AS103C: thermometer ASTM 103C - IP 84C
T-AS104C: thermometer ASTM 104C - IP 85C
T-AS105C: thermometer ASTM 105C - IP 86C
T-AS106C: thermometer ASTM 106C - IP 87C
T-AS107C: thermometer ASTM 107C - IP 88C
Spare Parts
LAB-101-176: flask type A 100 ml, pack of 3
LAB-101-177: flask type B 125 ml, pack of 3
LAB-101-183: flask type C 200 ml, pack of 3
LAB-101-178: flask type D 250 ml, pack of 3
LAB-101-188: receiver type A 25 ml, pack of 3
LAB-101-187/P: receiver type B 100 ml
LAB-101-189: receiver type C 200 ml, pack of 3
LAB-101-196: ceramic flask support board
Ø 25 mm
LAB-101-192: ceramic flask support board
Ø 32 mm
LAB-101-193: ceramic flask support board
Ø 38 mm
LAB-101-194: ceramic flask support board
Ø 51 mm
LAB-101-197: support for cylinder in PVC,
pack of 3
LAB-150-110: electronic regulator
LAB-150-992: cork cover
LAB-110-024/Q: quartz heater
74 Flash Point
Abel
LT/AF-82200/M
LT/AF-82000/M
75 Flash Point
Abel
BS 3442-2 (obs.)
EN 924
ISO 1516 - ISO 1523 - ISO 13736
IP 113 (obs.) - IP 170 (obs.) - IP 304-1 (obs.) IP 304-2 (obs.) - IP 491 - IP 492
NF M07-011 (obs.) - NF T66-009 (obs.)
Flash Point by Abel Closed Cup Method
Determines the closed cup flash point of
petroleum products and other liquids having
flash points between -30°C and 71°C
Art. LT/AF-82000/M
Electric Abel Flash Point
-E
lectrically heated by electronic regulator
-M
ounted on a case painted
with anti-acid epoxidic products.
-C
alibrated brass crucible
-C
over with gas ignition device
allowing to ignite the testing sample
by a manual glide-opening
- M otor stirrer
- A ir bath and water bath are made
in chromium-plated copper
- I nternal cooling coil
Power Supply:
220Vac 50/60 Hz
Dimensions:
cm 40 × 50 × 50
Weight:
kg 10
Art. LT/AF-82200/M
Digital Electric Abel Flash Point
- E lectrically heated by electronic regulator
- M ounted on a case painted
with anti-acid epoxidic products
- C alibrated brass crucible
- C over with gas ignition device
allowing to ignite the testing sample
by a manual glide-opening
- M otor stirrer
- A ir bath and water bath are
made in chromium-plated copper
- D igital thermometer with thermocouple
- I nternal cooling coil
Art. LT/AF-82200/DC
Semiautomatic Abel Flash Point Analyser
-E
lectrically heated by electronic regulator
manually settable
- M ounted on a case painted
with anti-acid epoxidic products
- C alibrated brass crucible
- C over with ignition device for gas
propane/butane
- E lectrical ignitor for test flame lighting
- A utomatic shutter opening and dip-in of
test flame by means of an electrical motor
- E lectrical motor stirrer
- D igital display for sample temperature
reading
- P T100 probe Class A
for sample temperature measuring
- B uilt in cooling valve for liquid circulation
Power Supply:
220Vac 50/60 Hz
Dimensions:
cm 45 × 50 × 60
Weight:
kg 12
LT/AF-82200/DC
Accessories for all art.
LAB-100-749: gas reducer 30mbar
LAB-100-750: rubber tube-joint
and tube 5 m
T-IP74C: thermometer IP 74C
T-IP75C: thermometer IP 75C
LAB-100-753: flexible stirrer drive,
pack of 5
LAB-110-003: heater
LAB-150-110: electronic regulator
LAB-100-752: thermometer collar,
pack of 5
Accessories for Art. LT/AF-82000/M
LAB-100-771: calibrated brass crucible
LAB-100-772: complete movement
Accessories for Art. LT/AF-82200/M
LAB-100-771: calibrated brass crucible
LAB-100-772: complete movement
LAB-110-003: heater
LAB-160-019: digital display for sample
temperature display
Accessories for Art. LT/AF-82200/DC
LAB-100-771: calibrated brass crucible
LAB-160-019: digital display for sample
temperature display
LAB-650/09-06: complete movement
LAB-650/08-12: PT100 for sample
temperature
LAB-650/07-01: electrical ignitor
for test flame lighting
Spare parts
LAB-100-771: calibrated brass crucible
LAB-100-772: complete movement
LAB-100-753: flexible stirrer drive,
pack of 5
LAB-110-003: heater
LAB-100-752: thermometer collar,
pack of 5
LAB-140-003: PT100 for sample
temperature
LAB-150-110: electronic regulator
LAB-160-019: digital display for sample
temperature display
LAB-650/07-01: electrical ignitor
for test flame lighting
LAB-650/08-12: PT100 for sample
temperature
LAB-650/09-06: complete movement
76 Flash Point
Cleveland
AASHTO T48 (obs.)
ASTM D92
BS 4689 (obs.)
DIN 51376
EN 22592 (obs.)
FTM 791-1103
ISO 2592
IP 36
JIS K 2265
NF T60-118 (obs.)
Flash and Fire Point
by Cleveland Open Cup Tester
This test method describes the
determination of the flash and fire point
of petroleum products with flash points
above 79°C (175°F) and below 400°C
(752°F) except fuel oils.
Art. LT/CO-88000/M
Electric Cleveland
- Electrically heated by electronic regulator
- M ounted on a case painted
with anti-acid epoxy products
- Calibrated brass cup
- G as ignition device fitted with a pivot
manually passing through the cup
- Pincers for thermometer
Art. LT/CO-89000/M, LT/CO-89000/DC
Semiautomatic Electric Cleveland
- Electrically heated by electronic regulator
- M ounted on a case painted
with anti-acid epoxy products
- Calibrated brass cup
- G as ignition device fitted with a pivot
passing through the cup controlled
by digital timer
- Pincers for thermometer
Accessories
LAB-100-749: gas reducer 30 mbar
LAB-100-750: rubber tube-joint and tube 5 m
T-AS11C: thermometer ASTM 11C - IP 28C
T-AS11F: thermometer ASTM 11F - IP 28F
Spare Parts
LAB-100-751:
LAB-100-911:
LAB-100-916:
LAB-150-110:
LAB-110-022:
Power Supply:
220Vac 50/60 Hz
Dimensions:
cm 40 × 50 × 40
Weight:
kg 8
LT/CO-89000/M
LT/CO-89000/DC
LT/CO-88000/M
silicone tubing 5 m
calibrated brass cup
gas ignition device, pack of 3
electronic regulator
heater
77 Flash Point
Pensky Martens
AASHTO T73 - AASHTO T172
ASTM D93-A - ASTM D93-B - ASTM D6751
BS 684-1.17 - BS 2839 (obs.)
DIN 51758 (obs.)
EN 22719
FTM 141-4293 - FTM 791-110
IP 34-A - IP 34-B
ISO 2719-A - ISO 2719-B - ISO 15267
JIS K 2265
NF M07-019 (obs.)
Flash Point by Pensky Martens
Closed Cup Tester
This test method covers the determination
of the flash point of petroleum products in
the temperature range from 35 to 360°C.
Procedure A is applicable to distillate
fuels (diesel, kerosene, heating oil, turbine
fuels), new lubricating oils, and other
homogeneous petroleum liquids not
included in the scope of Procedure B.
Procedure B is applicable to residual fuel
oils, cutback residual, used lubricating
oils, mixtures of petroleum liquids with
solids, petroleum liquids that tend to form
a surface film under test conditions, or
are petroleum liquids of such kinematic
viscosity that they are not uniformly heated
under the stirring and heating conditions of
Procedure A.
Art. LT/PM-75500/M
Digital Electric Pensky Martens
A and B Procedures
- Electrically heated by electronic regulator
- M ounted on a case painted with anti-acid
epoxy products
- Calibrated brass crucible
- C over with gas ignition device allowing
to ignite the testing sample by a manual
trip-opening
- Motor stirrer for Procedure A and B
- A ir bath made in brass with external
stainless steel protection cover
- Digital thermometer with thermocouple
Art. LT/PM-75000/DC
Semiautomatic Pensky Martens
ASTM D93, IP 34
- E lectrically heated by electronic regulator
manually settable
- M ounted on a case painted
with anti-acid epoxy products
- Calibrated brass crucible
- C up / cup cover with movement
stand-by support
- C over with ignition device for gas
propane/butane
- A utomatic shutter opening and dip-in of
test flame by means of an electrical motor
- E lectrical motor stirrer with shut off during
flame application
- D igital display for sample temperature
reading
- P T 100 probe Class A for sample
temperature measuring
- Built in cooling fan
- Measuring range from 15 to 370°C
Power Supply
220Vac 50/60 Hz
Dimensions
cm 30 × 46 × 52
Weight
kg 17
LT/PM-75500/M
LT/PM-75000/DC
Accessories
LAB-120-011: electric motor, 250rpm
(LT/PM-75000/M)
LAB-100-748: gas cylinder empty, 3 kg
LAB-100-749: gas reducer 30 m bar
LAB-100-750: rubber tube-joint and tube, 5 m
T-AS9C: thermometer ASTM 9C - IP 15C
T-AS9F: thermometer ASTM 9F - IP 15F
T-AS10C: thermometer ASTM 10C - IP 16C
T-AS10F: thermometer ASTM 10F - IP 16F
Spare Parts
LAB-100-741: calibrated brass crucible
LAB-100-742: complete movement
LAB-110-022: heater
LAB-100-751: silicone tubing 5 m
LAB-100-752: thermometer collar, pack of 5
LAB-100-753: flexible stirrer drive, pack of 5
LAB-120-010: electric motor, 100rpm
(LT/PM-75000/M)
LAB-120-011: electric motor, 250rpm
(LT/PM-75000/M)
LAB-120-020: electric motor
(LT/PM-75500/M)
LAB-150-110: electronic regulator
LAB-600/08-12: PT100
LAB-160-019: digital thermometer
78 Flash Point
Tag Closed
ASTM D56 - ASTM D3934 - ASTM D3941
BS 6664-3 (obs.) - BS 6664-4 (obs.)
DIN 55680 (obs.)
EN 456 (obs.) - EN 924
FTM 791-1101
ISO 1516 - ISO 1523 - ISO 3679 - ISO 3680
IP 304-1 (obs.) - IP 304-2 (obs.) - IP 491 - IP 492
JIS K 2265
NF T60-616 (obs.) - NF T60-617 (obs.)
Flash Point by Tag Closed Tester
This test method covers the determination
of the flash point of liquids with a viscosity
below 5.5 mm 2/s (cSt) at 40°C (104°F),
or below 9.5 mm 2/s (cSt) at 25°C (77°F),
and a flash point below 93°C (200°F).
Flash / No Flash Test - Equilibrium Method
by a Closed Cup Apparatus
This test method covers the determination
of whether a liquid complies with the
closed-cup flash. This test method
is limited to a temperature range between 0
and 110°C (32 and 230°F).
Flash Point by Equilibrium Method
with a Closed Cup Apparatus
This test method covers the determination
of the flash point of liquids in which the
specimen and the air/vapour mixture
above it are approximately in temperature
equilibrium. This test method is limited to
a temperature range between 0 and 110°C
(32 and 230°F).
Tag Open
Art. LT/TC-93000/M
Electric Tag Closed ASTM D56 D3934 D3941
- Electrically heated by electronic regulator
- M ounted on a case painted
with anti-acid epoxy products
- Test copper cup equipped
with glide-device and gas-ignition
- Water bath and support-jacket
made in brass
- Internal cooling coil
Power Supply: 220Vac 50/60 Hz
Dimensions: cm 40 × 40 × 50
Weight: 8 kg
Accessories
LT/CB-90000-35-3/M: cryostat
+30°C … -35°C
LAB-100-748: gas cylinder empty, 3kg
LAB-100-749: gas reducer 30 m bar
LAB-100-750: rubber tube-joint and tube 5 m
T-AS57C: thermometer ASTM 57C
T-AS57F: thermometer ASTM 57F
T-AS9C: thermometer ASTM 9C - IP 15C
T-AS9F: thermometer ASTM 9F - IP 15F
Spare Parts
LAB-100-751:
LAB-100-932:
LAB-100-933:
LAB-110-022:
LAB-150-110:
silicone tubing 5 m
copper cup, pack of 5
complete movement
heater
electronic regulator
ASTM D1310 - ASTM D3143
ASTM D1310 - Flash Point and Fire Point
of Liquids by Tag Open Cup Apparatus
This test method covers the determination
of the flash point and fire point of liquids
having flash points between -18 and 165°C
(0 and 325°F) and fire points up to 165°C
ASTM D3143 - Flash Point of Cutback Asphalt
This test method covers the determination
of flash points of cut-back asphalts having
flash points of less than 93°C (200°F)
Art. LT/TO-95000/M
Electric Tag Open ASTM D1310 D3143
- Electrically heated by electronic regulator
- M ounted on a case painted
with anti-acid epoxy products
- Test cup made in moulded glass
- G as ignition device with pivot passing
manually over the cup
- Water bath fitted with pincers
for thermometer
Power Supply: 220Vac 50/60 Hz
Dimensions: cm 40 × 40 × 50
Weight: 7 kg
Accessories
LT/CB-90000-35-3/M: cryostat
+30°C … -35°C
LAB-100-748: gas cylinder empty, 3 kg
LAB-100-749: gas reducer 30 m bar
LAB-100-750: rubber tube-joint and tube 5 m
T-AS9C: thermometer ASTM 9C - IP 15C
T-AS9F: thermometer ASTM 9F - IP 15F
T-AS33C: thermometer ASTM 33C - IP 20C
T-AS33F: thermometer ASTM 33F
T-AS35C: thermometer ASTM 35C - IP 59C
T-AS35F: thermometer ASTM 35F
Spare Parts
LAB-100-751:
LAB-100-951:
LAB-100-952:
LAB-110-022:
LAB-150-110:
LT/TC-93000/M
silicone tubing 5 m
glass cup, pack of 2
gas ignition device, pack of 3
heater
electronic regulator
LT/TO-95000/M
79 Gum - Rubber
Evaporation Bath
ASTM D381
DIN 51784
IP 131
Gum Content in Fuels by Jet Evaporation
This test method covers the determination
of the existent gum content of aviation fuels,
and the gum content of motor gasolines or
other volatile distillates in their finished form
(including those containing alcohol and
ether type oxygenates and deposit control
additives) at the time of test.
Art. LT/EB-241000/M
Evaporation Bath
Air and Steam Jet ASTM D381
-B
ath equipped with stainless jacket
in aluminium block
- 5 concentric pre-heating coils of 5 wells
connected to the central collector
with socket for steam measurer
(flowmetric manometer for “Steam Jet”)
-B
y-pass valve for the exclusion
of the air or steam
- 5 mobile blowing devices
- Insulated air gap
-S
team over-heater with adjustment
and condensate discharge valves
- H eating and over-heater are controlled
by a digital thermoregulator PID
with over-temperature alarm
- T he bath is fitted with a flowmeter
with sheath for “Air Jet” test
with connection for flow apparatus
(art.LT/FA-246000/TSA210),
not included and adjustment valve
- F lowmetric manometer
for “Steam Jet” test
Scott Cylinder
Art. LT/EB-242000/M
Evaporation Bath - Air Jet
- B ath equipped with stainless jacket
in aluminium block
- 5 concentric pre-heating coils
of 5 wells connected to the central
- 5 mobile blowing devices
- Insulated air gap
- H eating and over-heater are controlled
by a digital thermoregulator PID
with over-temperature alarm
- T he bath is fitted with a flowmeter with
sheath with connection for flow apparatus
(art. LT/FA-246000/TSA210), not included
and adjustment valve
Accessories
LT/B-2470/BCA200:analytical balance
LT/DO-248000/N/50:natural ventilation oven
LAB-102-421: Pyrex ® beaker
LT/FA-246000/TSA210:flow apparatus
LAB-102-423: steam generator
T-AS3C: thermometer ASTM 3C IP 73C
Spare Parts
LAB-102-421: Pyrex ® beaker
LAB-140-001/A: PT100 probe
LAB-160-014: d
igital thermoregulator
LAB-150-015/40: static relay
ASTM D454 - ASTM D572
ASTM D454
Rubber Deterioration by Heat and Air Pressure
This test method describes a procedure
to determine the influence of elevated
temperature and air pressure on the
physical properties of vulcanized rubber.
The results of this test may not give an
exact correlation with service performance
since performance conditions vary widely.
The test may, however, be used to evaluate
rubber compounds on a laboratory
comparison basis.
ASTM D572
Rubber-deterioration by Heat and Oxygen
This test method describes a procedure
to determine the relative deterioration
resistance of vulcanized rubber in a high
temperature and high pressure oxygen
environment. There may be no exact
correlation between this accelerated test
and natural aging of rubber because of the
varied conditions of natural aging.
This accelerated test is suitable for
laboratory compound or product
comparisons.
Art. LT/SC-239000/M
Scott Cylinder ASTM D454 - D572
- Completely made in 18/8 stainless steel
- Capacity 300 ml
- Teflon ® gasket
- 3 internal hooks for testing
- Cover fitted with central column
- Stainless steel pin cock for recharge
- Pressure gauge 0-30
Accessories
LT/BSC-239500/M Bath for Scott Cylinder
- Fully made in stainless steel
- Capacity about 15 L
- T hermostated by a digital thermoregulator
PID with over-temperature alarm that
control a temperature range from ambient
to 100°C
- T he uniformity of thermostating
is controlled by a motor stirrer
- T he bath includes a cooling coil and
a double bottom used as bearing surface
for cylinders and test-piece holders
Spare Parts
LAB-102-391: Teflon ® gasket, pack of 10
LAB-102-392: hooks for testing
LAB-102-393: pin valve
LAB-102-394: pressure gauge scale 0-30 bar
LT/EB-241000/M
80 Thermometers
Hydrometers, Thermo-hydrometers
Specific Gravity
Hydrometers
as per ASTM E100
Calibrated at 15°C
Hydrometers according
to British Standard
Calibrated at 15°C
Hydrometers
for general use
Calibrated at 15°C
Without thermometer
Scale subdivision 0.5 kg/m 3 DIN 1298,
overall length 335 mm
Serie L50 SP without thermometer
Scale subdivision 0.001,
overall length 335 mm
Type M100 UNI/ISO 649 serie M
without thermometer,
scale subdivision 0.001
Art. no.
ASTM ref.
600
600
600
600
600
600
600
600
600
600
311H 600 – 650
312H 650 – 700
313H 700 – 750
314H 750 – 800
315H 800 – 850
316H 850 – 900
317H 900 – 950
318H 950 – 1000
319H1000 – 1050
320H1050 – 1100
699
700
701
702
703
704
705
706
707
708
Range (kg/m 3)
With thermometer -10°C … +80°C
Scale subdivision 0.5 kg/m 3 DIN 1298,
overall Length 380 mm
Art. no.
Range
600
601
602
603
604
605
606
607
608
609
0.600
0.650
0.700
0.750
0.800
0.850
0.900
0.950
1.000
1.050
718
718
718
718
718
718
718
718
718
718
0.650
0.700
0.750
0.800
0.850
0.900
0.950
1.000
1.050
1.100
Serie M50 SP without thermometer
Scale subdivision 0.001,
overall length 270 mm
Art. no.
ASTM ref. Range (kg/m3)
Art. no.
Range
601
600
600
600
600
600
600
600
601
602
300H 600 – 650
301H 650 – 700
302H 700 – 750
303H 750 – 800
304H 800 – 850
305H 850 – 900
306H 900 – 950
307H 950 – 1000
308H1000 – 1050
309H1050 – 1100
600
601
602
603
604
605
606
607
608
609
0.600
0.650
0.700
0.750
0.800
0.850
0.900
0.950
1.000
1.050
711
711
712
713
714
715
716
717
717
717
–
–
–
–
–
–
–
–
–
–
719
719
719
719
719
719
719
719
719
719
–
–
–
–
–
–
–
–
–
–
0.650
0.700
0.750
0.800
0.850
0.900
0.950
1.000
1.050
1.100
Art. no.
Range
600
600
600
600
600
600
600
600
600
600
600
600
600
600
600
0.600
0.700
0.800
0.900
1.000
1.100
1.200
1.300
1.400
1.500
1.600
1.700
1.800
1.900
0.650
720
721
722
723
724
725
726
727
728
729
730
731
732
733
734
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
0.700
0.800
0.900
1.000
1.100
1.200
1.300
1.400
1.500
1.600
1.700
1.800
1.900
2.000
2.000
Type M100 UNI/ISO 649 serie M
with thermometer 0°C … +45°C,
scale subdivision 0.001
Art. no.
Range
600
600
600
600
600
600
600
600
600
600
600
600
600
600
0.600
0.700
0.800
0.900
1.000
1.100
1.200
1.300
1.400
1.500
1.600
1.700
1.800
1.900
735
736
737
738
739
740
741
742
743
744
745
746
747
748
–
–
–
–
–
–
–
–
–
–
–
–
–
–
0.700
0.800
0.900
1.000
1.100
1.200
1.300
1.400
1.500
1.600
1.700
1.800
1.900
2.000
81 LPG
Copper Corrosion by LPG
ASTM D1838
IP 411
ISO 6251
Copper Strip Corrosion by Liquefied
Petroleum (LP) Gases
This test method detects the presence
of components in liquefied petroleum gases
which may be corrosive to copper.
Art. LT/LPG-169000/M
LPG Corrosion Vessel ASTM D1838
- S tainless steel vessel with two needle valves
in stainless steel
- Screw top closure and o-ring sealing gasket
- Tested at 70 bar
Accessories
LT/TB-177000/M: thermostatic bath
LAB-101-441/G: copper test strip
75 × 12.5 × 2 mm, pack of 10
LAB-101-441/F: flat glass for protect strip
LAB-101-441/L: silicon carbide paper
240 grit, pack of 100
LAB-101-441/O: silicon carbide grains
150 mesh, pack of 1 kg
LAB-101-441/H: strip vice holds
one strip while polishing
LAB-101-441/I: 3 places strip vice
LAB-101-441/M: ASTM copper strip
corrosion standard, original USA
LAB-101-441/N: ASTM copper strip
corrosion standard
T-AS12C: thermometer ASTM 12C - IP 64C
T-AS12F: thermometer ASTM 12F - IP 64F
Spare Parts
LAB-101-441/G: copper test strip
75 × 12.5 × 2 mm, pack of 10
LAB-101-441/L: silicon carbide paper
240 grit, pack of 100
LAB-101-441/O: silicon carbide grains
150 mesh, pack of 1 kg
LAB-101-691: sealing gasket, pack of 10
LT/LPG-169000/M
LT/TB-177000/M
82 LPG
Density of LPG
and of Light Hydrocarbons
ASTM D1657
IP 235
ISO 3993
ASTM D1657
Density or Relative Density of Light
Hydrocarbons by Pressure Hydrometer
This test method covers the determination
of the density or relative density of light
hydrocarbons including liquefied petroleum
gases (LPG) having Reid vapour pressures
exceeding 101.325 kPa (14.696 psi).
IP 235 - ISO 3993
Density or Relative Density of LPG and of Light
Hydrocarbons by Pressure Hydrometer
The prescribed apparatus shall not be
used for materials having gauge vapour
pressures higher than 1,4 MPa
(absolute vapour pressure 1,5 MPa)
at the test temperature.
Art. LT/HA-175000/M
Hydrometer Apparatus ASTM D1657
- Tubular chamber made in acrylic resins
Ø 50 × 36 mm, L = 440 mm
-M
etallic headers coupled
with six stainless steel tie rods
- Neoprene gaskets
- Three ¼” pin cocks
- Tested to 15 bar hydraulic pressure
Accessories
LT/TB-177000/M: thermostatic bath
LAB-101-764: mesh safety guard
LAB-101-768: pressure gauge scale 0-24 bar
Accessories for ASTM D1657
600 710: thermohydrometer ASTM 310 H
0.500-0.650, thermometer -10 … +35°C
Accessories for IP 235 - ISO 3993
LAB-101-765: hydrometer 0.500-0.580
LAB-101-766: hydrometer 0.570-0.650
Spare Parts
LAB-101-762: gasket pack of 10
LAB-101-763: polymethylmethacrylate tube
Art. LT/CB-178000/M
Cobalt Bromide Method
- I ndicator (art.10-1780/A) with nickelplated brass protective sheath with
flow-off orifice on the header fitted with a
screw cap
- T ightness-proof Pyrex ® capillary tube
placed on neoprene gaskets containing
the bromide indicator
- C opper cooling coil (art.10-1781) with
threaded T-shaped connection ¼” and ¼”
needle valve
- M anometer (art.10-1782, art.10-1782/15)
¼” connection, 0-15 bar scale
- Pyrex ® jar Ø130 × 230 mm (art.10-1783)
Accessories
LAB-101-782/200: pressure gauge scale
0-200 psi
LAB-101-784: cobalt bromide
Spare Parts
LAB-101-785: gasket, pack of 10
LAB-101-783: Pyrex ® jar
LAB-101-786: Pyrex ® capillary tube
LT/HA-175000/M
83 LPG
Gage Vapour Pressure of LPG
ASTM D1267
IP 161 - IP 410
ISO 4256
Gage Vapour Pressure of Liquefied Petroleum
(LP) Gases (LP-gas Method)
This test method covers the determination
of the gage vapour pressures of liquefied
petroleum gas products at temperatures of
37.8°C (100°F) up to and including a test
temperature of 70°C (158°F).
Art. LT/VP-174000-A/M
Vapour Pressure Cylinder - Lower Chamber Two Openings - ASTM D1267
- Made in stainless steel
- I n one end of the chamber an opening
of approximately ½” shall be provided
for coupling with the vapour chamber
by means of a straight-trough valve
- S loped inner surface
- P rovided with charging / discharging valve
Art. LT/VP-174000-B/M
Vapour Pressure Cylinder - Upper Chamber
- ASTM D1267
- Made in stainless steel
- Lower coupling ½”
- C omplete with bleeder valve assembly and
½” coupling for pressure gauge
Art. LT/VP-174000-C/M
Vapour Pressure Cylinder
Lower Chamber 33 1/3% Two Openings - ASTM D1267
- Made in stainless steel
- I n one end of the chamber an opening
of approximately ½” shall be provided
for coupling with the vapour chamber
by means of a straight-trough valve
- S loped inner surface
- P rovided with charging / discharging valve
Hydrostatic test
The assembled chambers are certified by
the manufacturer to withstand approx.1000
PSI (70bar) of hydrostatic pressure without
permanent deformation.
Accessories
LT/TB-177000/M: thermostatic bath
ASTM D1267 - D1657 - D1838
- IP 161 - IP 410
LAB-101-740/C: ullage chamber IP 161
total flow valve
LAB-101-741/7: pressure gauge
made in stainless steel, type ¼” gas,
scale 0-7 bar, div. 0.1
LAB101-741/10: pressure gauge
made in stainless steel, type ¼” gas,
scale 0-10 bar, div. 0.2
LAB-101-741/25: pressure gauge
made in stainless steel, type ¼” gas,
scale 0-25 bar, div. 0.5
LAB-101-741/40: pressure gauge
made in stainless steel, type ¼” gas,
scale 0-40 bar, div. 1
LAB-101-742/100: pressure gauge
made in stainless steel, type ¼” gas,
scale 0-100 psi, div. 2
LAB-10-1742/150: pressure gauge
made in stainless steel, type ¼” gas,
scale 0-150 psi, div. 2
LAB-101-742/250: pressure gauge
made in stainless steel, type ¼” gas,
scale 0-250 psi, div. 5
LAB-101-742/600: pressure gauge
made in stainless steel, type ¼” gas,
scale 0-600 psi, div. 10
LAB-101-743: adaptor for container RVP,
SG, hydrometer, etc. copper capillary
Ø 6 mm × 4 mm
Spare Parts
LAB-101-744: gasket, pack of 10
LAB-101-745: total flow valve
84 LPG
Hydrogen Sulfide
in Liquefied LPG
LPG Relative Purity
ASTM D2420
ASTM D1837 - ASTM D2158
IP 317
Hydrogen Sulfide In Liquefied LPG
(Lead Acetate Method)
This test method covers the detection
of hydrogen sulfide in liquefied petroleum
(LP) gases.The sensitivity of the test
is about 4 mg/m 3 (0.15 to 0.2 grain of
hydrogen sulfide per 100 ft3) of gas.
Art. LT/HS-230000/M
Hydrogen Sulfide In Liquefied LPG
- Stainless steel cylinder 500 ml with valve
- Stainless steel tubing with needle valve
- Water bath with temperature thermostat
- Glass cylinder
- Watch glass
- Stopper
- Lead acetate test paper
- Flow indicator
Power Supply
220Vac 50/60 Hz
Dimensions
70 × 50 × 60 cm
Weight
20 kg
Spare Parts
LAB-102-301: lead acetate test paper
LAB-102-302: watch glass, pack of 3
LAB-102-303: glass cylinder, pack of 3
ASTM D1837
Volatility of Liquefied Petroleum (LP) Gases
This test method is a measure of the relative
purity of the various types of liquefied
petroleum (LP) gases and helps to ensure
suitable volatility performance.
The test results, when properly related to
vapour pressure and density of the product,
can be used to indicate the presence of
butane and heavier components in propane
type LP-gas, and pentane and heavier
components in propane-butane and butane
type fuels. The presence of hydrocarbon
compounds less volatile than those of
which the LP-gas is primarily composed
is indicated by an increase in the 95 %
evaporated temperature.
ASTM D2158 - IP 317
Residues in Liquefied Petroleum (LP) Gases
This test method covers the determination
of the extraneous materials weathering
above 38°C that are present in liquefied
petroleum gases.
Art. LT/WT-170000/M
Weathering Test, Mercury Freeze Method
ASTM D1837 - D2158
- 18/8 stainless steel bath with double wall
- Copper cooling coil with two ¼” valves
Accessories
LAB-101-225: cone-shaped tube 100 ml,
203 mm, graduated to 0.05 ml, pack of 4
LT/WB-520-250/M: water bath consisting
of heating plate with relevant axle
and clamp, beaker 250 ml capacity
Accessories for ASTM D1837
T-AS99C: thermometer ASTM 99C
T-AS99F: thermometer ASTM 99F
LAB-101-225/TH: cork with hole
for thermometer
Accessories for ASTM D2158 - IP 317
LAB-101-713: syringe 1 ml capacity,
div. 0.1, needle L = 200 mm
LAB-101-714: filter paper medium degree,
Ø 125 mm, pack of 100
LAB-101-715: copper wire
Ø 1.5 mm, L = 300 mm
T-AS5C: thermometer ASTM 5C
T-AS6C: thermometer ASTM 6C
T-AS57C: thermometer ASTM 57C
LAB-101-225/WH:cork with hole for wire
Spare Parts
LAB-101-225: cone-shaped tube 100 ml,
203 mm, graduated to 0.05 ml, pack of 4
Spare Parts for ASTM D2158 - IP 317
LAB-101-713: syringe 1 ml capacity,
div. 0.1, needle L = 200 mm
LAB-101-714: filter paper medium degree,
Ø 125 mm, pack of 100
LAB-101-715: copper wire Ø 1.5 mm,
L = 300 mm
LT/HS-230000/M
LT/WT-170000/M
85 LPG
Sampling and Gauging LPG Tanks + Valves
ASTM D1265
GPA 2140
LT/SC-163100-500/M
LPG Sample Cylinder 500 ml Capacity
Practice for Sampling Liquefied Petroleum (LP)
Gases (Manual Method)
LT/SC-163100-1000/M
LPG Sample Cylinder 1000 ml Capacity
Art. LT/SC-163100/M
Sampling Cylinder - ASTM D1265
-C
ompletely made
in stainless steel AISI 304
-½
gas tapered connection
and ¼ gas charge - capacity available:
50,100, 250, 300, 500,1000 ml
- F itted with 2 stainless steel AISI 316
valves and a 20% outage tube
- Certificate for pressure of 100 bar
Ss Double-ended Dot-compliant Sample
Cylinder, 1/4 In. Fnpt, 1800 Psig (124 Bar)
- Body Material: 304L stainless Steel
- Connection 1 Size: ¼ in
- Connection 1 Type: FNPT
- Connection 2 Size: ¼ in
- Connection 2 Type: FNPT
Art. LT/CF-167000/M
Connection Filter
- Useful to connect to the cylinders
- Body in brass
- Filtering Perlon mass with ¼” connections
Art. LT/LT-168000/M
Line Trasferring Block
Consisting of two cocks with joint
Accessories
LAB-101-635: protection collar,
protects valves and cylinder
Spare Parts
LT/SV-184000/M: stainless steel valve
LAB-101-801: stopper for valve 1/4”
LAB-101-635: protection collar
Art. LT/SV-184000/M
Stainless Steel Valve
for Art.: LT/SC-163100/M
- AISI 316 stainless steel body and pin
- ¼ cylindrical gas charge and ½ tapered
- Right angle gas connection
- Stuffing box
- Safety stop system on the opening
- Certificate for pressure of 200 bar
SS Integral Bonnet Needle Valve, 0.73 Cv,
1/4 in. MNPT x 1/4 in. FNPT, Regulating Stem
- Flow Pattern: Straight (2-way)
- Valve Material: Stainless Steel
- End Connection 1 Size: 1/4 in
- End Connection 1 Type: MNPT
- End Connection 2 Size: 1/4 in
- End Connection 2 Type: FNPT
- Handle Color: Black
- Handle Style: Phenolic Knob
- Cleaning: Standard cleaning SC-10
- L ubricant: Perf. Polyether/Tung.
Disulfide (WL7)
- Stem Material: 316 Stainless Steel
- Stem Plating Material: Chrome-plated 316
- Stainless Steel
- Stem Type: Regulating
- Stem Tip Material: 316 Stainless Steel
- M ax Temperature with Pressure Rating:
232°C @ 236 BAR
- Orifice: 250 in
- Room Temperature
- Pressure Rating: 344 BAR @ 37°C
SS High-Pressure Proportional Relief Valve,
1/4 in. MNPT x 1/4 in. FNPT, Buna N Seal
- Service Class High Pressure
- Size 1/8in
- Valve Material 316 Stainless Steel
- End Connection 1 Size 1/4 in
- End Connection 1 Type Male NPT
- End Connection 2 Size 1/4 in
- End Connection 2 Type Female NPT
- M ax Temperature Pressure Rating
250°F @ 4910 PSIG /121°C @ 338 BAR
- R oom Temperature Pressure Rating
6000 PSIG @ 100°F /413 @ BAR
LT/SC-163100/M
LT/SV-184000/M
LT/SC-163100-1000/M
86 Lubricating Greases and Oils
Corrosion Preventive Properties
of Lubricating Greases
ASTM D1743 - ASTM D4950
ASTM D1743
Corrosion Preventive Properties
of Lubricating Greases
This test method covers the determination
of the corrosion preventive properties
of greases using grease-lubricated
tapered roller bearings stored under wet
conditions. This test method is based
on CRC Technique L 41that shows
correlations between laboratory results
and service for grease lubricated aircraft
wheel bearings.
ASTM D4950
Classification and Specification
of Automotive Service Greases
This specification covers lubricating
greases suitable for the periodic
relubrication of chassis systems and wheel
bearings of passenger cars, trucks,
and other vehicles.
Art. LT/CG-205800/M
Corrosion Greases Apparatus
ASTM D1743 - D4950
- G roup rotating at 1,750 rpm mounted
on a bed-plate
- C alibrated thrust device with spring
for placing the bearing against the rotating
support
- M echanical device for the test grease inlet
onto the bearing
- Bearing type 09074/0916.6
Power Supply:
220Vac 50/60 Hz
Accessories
LAB-102-058/A: syringe 100 ml
LAB-102-058/C: pincers
LAB-102-059/A: support for bearing
LAB-102-059/B: container in glass with cover
LAB-100-331: analog stopwatch
LAB-100-332: digital stopwatch
Spare Parts
LAB-102-058/A: syringe 100 ml
LAB-102-058/C: pincers
LAB-102-059/A: support for bearing
LAB-102-059/B: container in glass with cover
LAB-102-059/C: Timken bearing
Dimensions:
cm 60 × 60 × 50
Weight:
kg 30
LAB-102-058/A
LAB-102-059/A
LT/CG-205800/M
87 Lubricating Greases and Oils
Dropping Point
of Lubricating Grease
ASTM D566 - ASTM D2265 - ASTM D4950
DIN 51801
IP 132
ASTM D566 - IP 132 - DIN 51801
Dropping Point of Lubricating Grease
This test method covers the determination
of the dropping point of lubricating grease.
This test method is not recommended for
use at bath temperatures above 288°C.
ASTM D4950
Classification and Specification of Automotive
Service Greases
This specification covers lubricating greases
suitable for the periodic relubrication
of chassis systems.
ASTM D2265
Dropping Point of Lubricating Grease
over Wide Temperature Range
This test method covers the determination
of the dropping point of lubricating grease.
Art. LT/DP-211000/M
Dropping Point Apparatus
ASTM D566 - D4950
- Nickel-plated brass casing
- Test tube with projection cap
- Cork ring
- Cover in anticorodal
- Wire stirrer
- Rod Ø 1.5 × 150 mm
- Glass 400 ml
- Heating device unit
- Motor stirrer
Spare Parts for Art. LT/DP-211000/M
LAB-102-110: dropping point set,
nickel-plated brass casing, test tube
with projection cap and cork ring,
cover in anticorodal, wire stirrer,
rod Ø 1.5 × 150 mm
LAB-102-113: capsule ASTM
LAB-102-114: dish
LAB-101-173: beaker 400 ml
LAB-150-110: electronic regulator
LAB-110-022: heater
Accessories for Art. LT/DP-211000/M
T-AS2C: thermometer ASTM 2C IP 62C
Art. LT/DP-211500/M
Dropping Point Apparatus ASTM D2265
- Structure in stainless steel
- Insulating thermal
- Furnace in aluminium block with 6 places
- I n the block 6 vertical holes are
systematized for the support of the pipes
of test while in the back part there are
6 horizontal holes for the observation with
a light cold lamp for the illumination of the
zone in correspondence of the cap of test
- T he lamp is assembled with a reflector
in the superior part
- T he control of the temperature effected
by a digital thermoregulator PID with overtemperature alarm and probe PT100A
Accessories for Art. LT/DP-211500/M
LAB-102-115: brass dish
LAB-102-116: sampling tube
LAB-102-117: dish support
LAB-102-118: thermometer bush
LAB-102-119/H: high bush
LAB-102-119/L: low bush
LAB-102-121: bush support
LAB-102-122: gauge
T-AS3C: thermometer ASTM 3C
T-AS3F: thermometer ASTM 3F
Spare Parts for Art. LT/DP-211500/M
LAB-160-014: digital thermoregulator
LAB-112-115: heater
LAB-152-115: light
LAB-150-015: static relay
LT/DP-211000/M
LT/DP-211500/M
88 Lubricating Greases and Oils
Dropping Point
Ubbelhode
Estimation Particles
in Greases
Evaporation Loss
DIN 51801-2
IP 31 (obs.) - IP 371
ASTM D1404
ASTM D972 – IP 183
Estimation of Deleterious Particles
in Lubricating Grease
This test method describes a procedure
for the detection and estimation of
deleterious particles in lubricating grease.
Evaporation Loss of Lubricating Greases
and Oils
This test method covers the determination
of the loss in mass by evaporation of
lubricating greases and oils for applications
where evaporation loss is a factor.
Evaporation loss data can be obtained
at any temperature in the range from 100
to 150°C (210 to 300°F).
DIN 51801-2 – Determination
of Dropping PointUbbelhode Method
for Bituminous Binders
Determines the temperature at which
grease passes from a semisolid to a liquid
state.
IP 31 (obs.) - IP 371
Drop Point of Petroleum
Art. LT/DP-212000/M
Drop Point of Grease Apparatus - IP 31 - IP 371
- Nickel-plated casing
- Test tube 40 × 240 mm
- Cap
- Glass 400 ml
- Cover in anticorodal
- Wire stirrer
- Heating device unit
- Motor stirrer
Art. LT/DP-213000/M
Drop Point Ubbelohde - DIN 51801-2
- Nickel-plated casing
- Test tube 40 × 240 mm
- Cap
- Glass 1000 ml
- Cover in anticorodal
- Wire stirrer
- Heating device unit
- Motor stirrer
Art. LT/EP-204000/M
Determination Deleterious Particles In
Lubricating Grease Apparatus
- Body
- Test plate holders
- Loading screw
- Calibrated spring with scale
for applying test load
- R emovable cap assembly with handle for
rotating test plate
- 2 test plates made in Plexiglas ®
Spare Parts
LAB-102-040: test plate, pack of 2
Art. LT/EC-205000/M
Evaporation Cell ASTM D972 - IP 183
- S tainless steel cylindrical body with neck
flange and three cell connections
for the tight cover closure double bottom
with 3.17 mm orifice
- B rass pre-heating coil with cell
connections and air inlet tube
- S tainless steel cover with neoprene
gaskets fitted with 3 blocking screws
- C entral air flow-off connected to a 18/8
stainless steel tube with lower threaded
junction for connection with the test cup
Accessories for Art. LT/DP-212000/M
T-IP40C: thermometer IP 40C
T-IP41C: thermometer IP 41C
Spare Parts for Art. LT/DP-212000/M
LAB-102-120: drop point set nickel-plated
casing, test tube 40 × 240 mm, cap,
glass 400 ml, cover in anticorodal,
wire stirrer
LAB-102-133: cap IP
LAB-102-135: glass cylinder IP
Accessories for Art. LT/DP-213000/M
T-2132/A: thermometer Ubbelohde
0° + 110°C, div.1°, total immersion
T-2132/B: thermometer Ubbelohde
100° + 230°C, div.1°, total immersion
Spare Parts for Art. LT/DP-213000/M
LAB-102-130: drop point set nickel-plated
casing, test tube 40 × 240 mm, cap, glass
1000 ml, cover in anticorodal, wire stirrer
LAB-102-134: cap
LAB-102-136: glass cylinder
LT/EC-205000/M
89 Lubricating Greases and Oils
Grease Worker,
Consistency of Lubricating Greases
Accessories
LT/TB-205100/M: thermostatic bath
ASTM D972 - IP 12
LT/AB-2470/BC250: balance
LAB-102-051: test cup for greases
LAB-102-052/A: test cup for lubricating oil
LAB-102-050: air pump
LAB-102-052/B: flowmeter
Accessories for ASTM D972
T-AS22C: thermometer ASTM 22C
T-AS67C: thermometer ASTM 67C
Spare Parts
LAB-102-052/C: gasket pack of 10
LAB-102-052/D: stainless steel cover
Accessories for IP 183
T-AS40C: thermometer ASTM 40C
T-AS35C: thermometer ASTM 35C
ASTM D217 - ASTM D1403
Cone penetration of lubricating grease
Cover four procedures for measuring
the consistency of lubricating greases
by the penetration of a cone of specified
dimensions, mass and finish.
Art. LT/GW-67000/M
Manual Grease Worker ASTM D217 - D1403
- Brass body
- S crew cover with air valve
and thermometer pass
- P iston with ground-slideway brass
handle allowing connection to a base
with lever (art. 68000) or automatic
machine (art. 69000, art. 70000)
- D isc complying with ASTM regulations and
with 51 holes of 6.35 mm
Art. LT/GW-68000/M
Slave Unit ASTM D217 - D1403
- For manipulating fats manually
- A daptable to Manual Grease Worker
(art. 67000)
Art. LT/GW-70000-1/M
Automatic Grease Worker ASTM D217 D1403
- 5 figure stroke counter
- Automatic preselector
- Adaptable to Manual Grease Worker
(Art. 670000)
Art. LT/GW-70000-2/M
Automatic Grease Worker (2 places)
Power Supply: 220Vac 50/60 Hz
Dimensions: cm 45 × 40 × 60
Weight: kg 15
Accessories
LAB-100-682: churn plate FTM
with 270 × 1.58 mm holes
LAB-100-710: grease cutter
LAB-100-714: half-scale grease worker
ASTM D1403, stainless steel,
with 8 × 6.35 mm holes
LAB-100-718: quarter-scale grease worker
ASTM D1403, stainless steel,
with 8 × 3.17 mm holes
T-0110: thermometer 0° +110°C
Spare Parts
LAB-100-710: grease cutter
LT/TB-205100/M
LT/GW-68000/M
LT/GW-67000/M
LT/GW-70000-1/M
90 Lubricating Greases and Oils
Oil Separation
from Lubricating Grease
ASTM D1742
FTM 791-321
IP 121
ASTM D1742
Oil Separation from Lubricating Grease During
Storage
This test method covers the determination
of the tendency of a lubricating grease to
separate oil during storage in both normally
filled and partially filled containers.
FTM 791-321
Determination of the Tendency
of Lubricating Grease to Separate Oil
at an Elevated Temperature
IP 121
Determination of Oil Separation
from Lubricating Grease
Pressure Filtration Method
Art. LT/GS-203118/M
Oil Separation of Lubricating Grease
4 Places - ASTM D1742
- 4 Oil separation test cells
(Type A or B to be specified in case of PO)
- P ressure gauges
- P ressure reducer
- C ontrol valves
- C onnection tubes
- 4 glass beakers 20 ml
- S upport with 4 outlet collector for air
distribution, 4 regulating valves, vacuum
stabilizer, pressure reducer manifold, air
inlet vacuum manometer up to 400 mBar,
outlet vacuum manometer up to 40 mBar
- B ench top ceramic glass heating plate
with stainless steel case with a working
temperature of up to 100°C, suitable for
the accommodation of up to 4 test cells.
- Two independent control thermostat
for over temperature protection
- P ower supply 230 Vac 1400W
- Vacuum pump 300 Lt/h, max pressure/
vacuum 300 mBar 230 Vac 50 Hz
Accessories for Art. LT/GS203118/M
LT/AB-2470/BC400: analytical balance
LAB-102-032: complete cell type B
LAB-102-033: pump
Spare Parts for Art. LT/GS-203118/M
LAB-102-031: complete cell type A
LAB-102-032: complete cell type B
LAB-102-031/A: filter for cell type A
LAB-102-031/B: beaker 20 ml
LAB-102-031/C: limit cylinder
LAB-102-031/D: filter for cell type B
Spare Parts for Art. LT/GS203200/M
LAB-102-032/A: cone with mesh
LAB-102-032/B: oil container
LAB-102-032/C: weight 100 gr.
Spare Parts for Art. LT/GS-203300/M
LAB-102-033/A: cone with filter
LAB-102-033/B: beaker
LAB-102-033/C: cover
Art. LT/GS-203200/M
Greases Separation Apparatus - IP 121
-C
ouple with 240 mesh filter cone
located at the bottom
- Metallic weight 100 gr.
- Oil container
Art. LT/GS-203300/M
Greases Separation Apparatus - FTM 791-321
- Stainless steel cone with 60 mesh filter
- Glass 200 ml with levelled edge
- Cover fitted with gasket
- Crane hook for the cone
LT/GS-203300/M
LT/GS-203200/M
LT/GS-203100/M
LAB-102-031
91 Lubricating Greases and Oils
Oxidation Stability of Greases
Oxygen Pressure Vessel Method
ASTM D942
DIN 51808
IP 142
Oxidation Stability of Lubricating Greases
by the Pressure Vessel Method
This test method determines resistance
of lubricating greases to oxidation when
stored statically in an oxygen atmosphere
in a sealed system at an elevated
temperature under conditions of test.
Art. LT/OS-202000/M
Oxidation Pressure Vessel ASTM D942
- Polished stainless steel 18/8
- Capacity 185 ml
-O
xygen inlet stem connected to a cover
through a suspension flange of the bath
- O-ring gasket
- Screw-top closure
- Tested to 180 psi
- 1/4” joint for pressure gauge connection
Art. LT/OS-202000-B/M
Oxidation Stability Bath for ASTM D942 - IP 142
- S tructures in stainless steel inox with
double wall insulation
- C over with two holes for the passage
of the bombs
- Heater in stainless steel 1600 Watt
- D igital thermoregulator
with over-temperature alarm
and probe PT100
- Safety thermostat with warning lamp
- Working temperatures: ambient … 150°C
- Power supply 220 Vac ±10% 50/60 Hz
Accessories
LT/AB-2470/BC150: analytical balance
LAB-102-025: dish holder
LAB-102-021: sample dish in Pyrex ®,
Ø 41 mm, pack of 5
LAB-102-022: pressure gauge
scale 0-160 psi, div. 0.5
LAB-102-013: junction O 2
Accessories for bath
LAB-100-371/50: silicone oil can of 25 litres
T-AS22C: thermometer ASTM 22C
T-AS22F: thermometer ASTM 22F
Spare parts for oxidation pressure vessel
LAB-102-025: dish holder
LAB-102-021: sample dish in Pyrex®,
Ø 41 mm, pack of 5
LAB-102-022: pressure gauge
scale 0-160 psi, div. 0.5
LAB-102-001-DPS-1: digital manometer
with peak recording
LAB-102-001-DPS-RF: digital manometer
with record functions
LAB-102-013: junction O 2
Spare parts for bath
LAB-110-012: heater
LAB-160-014: digital thermoregulator
LAB-140-001: probe PT100
LAB-150-015: static relay
LAB-100-371/50: silicone oil can of 25 litres
LAB-102-025, LAB-102-021
LT/OS-202000/M
LT/OS-202000-B/M
92 Lubricating Greases and Oils
Roll Stability
of Lubricating Grease
ASTM D1831
Roll Stability of Lubricating Grease
This test method covers determination
of the changes in the consistency,
as measured by cone penetration,
of lubricating greases when worked
in the roll stability test apparatus.
Art. LT/RS-205700/M
Roll Stability Apparatus ASTM D1831
- One-place model with thermostatic cabin
-T
emperature controlled by a digital
thermoregulator
- 160 rpm speed geared motor
-S
tainless steel cylinder containing
the test grease
-F
itted with stainless steel roller which
rotates within the cylinder
-B
ase with roller supports allowing
the rotation
Torque of Greases
Power Supply
220Vac 50/60 Hz
Dimensions
60 × 60 × 50 cm
Weight
30 kg
Spare Parts
LAB-102-057/A: stainless steel cylinder
LAB-102-057/B: stainless steel roller
LAB-160-014: digital thermoregulator
LAB-140-001: probe PT100
LAB-110-010: heater
LAB-150-015: static relay
ASTM D1478 - ASTM D4693 - ASTM D4950
ASTM D1478
Low-temperature Torque
of Ball Bearing Grease
This test method covers the determination
of the extent to which a grease retards
the rotation of a slow-speed ball bearing
by measuring starting and running torques
at low temperatures, below -20°C (0°F).
ASTM D4693
Low-temperature Torque
of Grease Lubricated
Wheel Bearings
This test method determines the extent
to which a test grease retards the rotation
of a specially-manufactured, spring-loaded,
automotive-type wheel bearing assembly
when subjected to low temperatures.
Torque values, calculated from restrainingforce determinations, are a measure
of the viscous resistance of the grease.
This test method was developed with
greases giving torques of less than 35 N·m
at 40°C.
ASTM D4950
Classification and Specification
of Automotive Service Greases
This specification covers lubricating greases
suitable for the periodic relubrication
of chassis systems and wheel bearings
of passenger cars, trucks, and other
vehicles.
Art. LT/GR-214500/M
Grease Resistance to Low Speed Rotation
ASTM D1478 - D4693 - D4950
- Test cabin suitable for -54°C work
temperature
- Ball-cage rotating at 1 rpm
- Stainless steel structure
- Front flap door highly insulated
- R efrigerating unit located in the bottom
part of the structure
- D ial dynamometer suspended on the top
by a clamp
- M otor stirrer that evens the cabin
temperature
- Geared motor 1 rpm
- Bearing type “204”
- Temperature controlled by a digital
thermoregulator PID and measured by
a probe PT100 connected to a ball-shaft
Spare Parts
LAB-102-140:
LAB-102-142:
LAB-102-143:
LAB-160-014:
LAB-140-001:
LT/RS-205700/M
bearing type “204”
dynamometer wire
grease cup
digital thermoregultor
probe PT100
93 Lubricating Greases and Oils
Wheel Bearing Greases
Water Washout Characteristics
of Lubricating Greases
ASTM D1263
ASTM D1264
IP 215
Leakage Tendencies of Automotive Wheel
Bearing Greases
This test method covers the evaluation
of the leakage tendencies of wheel bearing
greases when tested under prescribed
laboratory condition.
Art. LT/WB-205300/M
Wheel Bearing Grease Apparatus
ASTM D1263
-T
hermostatic stainless steel cabin
equipped with thermic insulator
- Rotating pivot with spindle
-E
lectric heating with digital control
of temperature
- M otor with pulley and V-type belt
controlling the hub rotation
- T he hub carries bearings
with a pulley suitable for 660rpm speed
- Two taper roller bearings
- Grease collection tank
Water Washout Characteristics
of Lubricating Greases
This test method covers the evaluation
of the resistance of a lubricating grease
to washout by water from a bearing, when
tested at 38 and 79°C (100 and 175°F)
under the prescribed laboratory conditions.
It is not to be considered the equivalent
of service evaluation tests.
This test method may not be suitable
for some greases containing highly volatile
components.
Accessories
LT/AB-2470/BC180: balance
T-AS34C: thermometer ASTM 34C - IP 21C
Spare Parts
LAB-102-056/A: bearing
LAB-110-001: heater
LAB-140-006: PT100 probe
LAB-160-014: digital thermoregulator
LAB-150-015: static relay
Accessories
LT/AB-2470/BC8000: balance
LAB-102-054/A: torque wrench for 6.8 Nm
T-AS7C: thermometer ASTM 7C IP 5C
T-AS7F: thermometer ASTM 7F
Spare Parts
LAB-102-054/A: torque wrench for 6.8 Nm
LAB-102-055/A: roller bearing Timken
09074 = No. 09196
LAB-102-055/B: roller bearing timken
15118 = No. 15250
LT/WW-205600/M
LT/WB-205300/M
Art. LT/WW-205600/M
Water Washout Grease Apparatus
ASTM D1264
- T hermostatic cabin with electric stainless
steel heater controlled by a digital
thermoregulator
- Two bearings type 204
- T hermometer determining water
temperature in the cabin
- E lectric motor with direct coupling
to the pump and drive belt for the shaft
pulley 600 rpm
- Bearings block
- Flowmeter measuring water delivery
- Delivery and back-flow gates with by-pass
- Regulator valves
94 Oxidation
Corrosiveness
and Oxidation Stability Bath
Oxidation (Cigre)
ASTM D4636
IP 48 - IP 280
Corrosiveness and Oxidation Stability
of Hydraulic Oils, Aircraft Turbine Engine
Lubricants and Other Highly Refined Oils
This test method is used to test hydraulic
oils, aircraft turbine engine lubricants,
and other highly refined oils to determine
their resistance to oxidation and corrosion
degradation and their tendency to corrode
various metals. Petroleum and synthetic
fluids may be evaluated using moist or dry
air with or without metal test specimens.
IP 48
Oxidation Characteristics of Lubricating Oil
This method indicates the tendency
of a lubricating oil to deteriorate
on oxidation under specified conditions
Art. LT/CO-199000/M
Corrosiveness and Oxidation Stability Bath
ASTM D4636
- A luminium block with six holes for six
pipes of test for temperatures up to 400°C
- D igital thermoregulator PID
with over-temperature alarm
- D igital display with six thermocouples
for the cells with selector for the reading
-S
ix flowmeters for air 10 l/h with relative
valves of regulation
-S
upport for the assemblage
of the glassworks
Accessories
LT/CF-122000/M: centrifuge with no. 4 art.
LAB-101-222: bucket and no. 4 art.
LAB-101-225: tube
LT/AB-2470/BCA200:analytical balance
LT/B-2470/ BC3000: balance
LT/DO-248000/F/50: drying oven
LAB-101-991: Pyrex ® cell
LAB-101-992: test wire federal
LAB-101-994: catalyst wire federal 5321
LAB-101-441/L: silicon carbide paper
240 grit, pack of 100
LAB-101-441/O: silicon carbide grains
150 mesh, pack of 1 kg
LAB-101-441/Q: silicon carbide paper
400 grit, pack of 100
T-AS95C: thermometer ASTM 95C
IP 280
Oxidation Stability of Straight
and Inhibited Mineral Oils
This method is a comparatively short test
to measure the resistance to oxidation
under specified conditions of new inhibited
mineral turbine oils.
Art. LT/OC-198500/M
Oxidation Lubricating Oil Apparatus (Cigre)
IP 48
- S tainless steel structure with a six place
aluminium block
- D igital thermoregulator PID with overtemperature alarm and probe PT100A
- C ollector with four 15 l/h of O 2 flowmeters
fitted with pin valves
- Back support for 6 absorbing tubes
- 6 oxidation tubes
- Range temperature: ambient to 200°C
Accessories
LAB-101-987: bubble flowmeter
T-IP22C: thermometer IP 22C
Spare Parts
LAB-101-986: glassware
LAB-101-987: bubble flowmeter
Art. LT/OS-193000/M
Oxidation Stability Apparatus (Cigre) - IP 280
- S tainless steel structure with a 4 places
aluminium block
- D igital thermoregulator PID with overtemperature alarm and probe PT100A
- C ollector with six 1 l/h of O 2 flowmeters
fitted with pin valves
- Back support for 4 absorbing tubes
- 4 oxidation tubes
- Range temperature ambient to 120°C
Power Supply:
220Vac 50/60 Hz
Dimensions:
cm 60 × 60 × 80
Weight:
kg 50
Accessories
LT/B2470/BC150: balance
LAB-101-931: porcelain crucibles 50 ml
capacity, pack of 5
LAB-101-932: burette 10 ml, div. 0.01 ml
LAB-101-933: filtering crucibles 35 ml,
4-10 microns
LAB-101-987: bubble flowmeter
T-IP15C: thermometer IP 15C
T-IP81C: thermometer IP 81C
Spare Parts
LAB-101-931: porcelain crucibles 50 ml
capacity, pack of 5
LAB-101-932: burette 10 ml, div. 0.01 ml
LAB-101-933: filtering crucibles 35 ml,
4-10 microns
LAB-101-986: glassware
LAB-101-987: bubble flowmeter
Spare Parts
LAB-101-991: Pyrex ® cell
LAB-101-992: test wire federal
LAB-101-994: catalyst wire federal 5321
LAB-101-441/L: silicon carbide paper
240 grit, pack of 100
LAB-101-441/O: silicon carbide grains
150 mesh, pack of 1 kg
LAB-101-441/Q: silicon carbide paper
400 grit, pack of 100
LT/CO-199000/M
LT/OS-193000/M
95 Oxidation
Oxidation Stability
ASTM D943 - ASTM D2274 - ASTM D4310
DIN 51587
IP 388
ISO 4263
ASTM D943 - DIN 51587 - ISO 4263
Test Method for Oxidation Characteristics
of Inhibited Mineral Oils
This test method is used to evaluate the
oxidation stability of inhibited steam-turbine
oils in the presence of oxygen, water,
and copper and iron metals at an elevated
temperature. The test method is also used
or testing other oils such as hydraulic oils
and circulating oils having a specific gravity
less than that of water and containing rust
and oxidation inhibitors.
ASTM D2274 - IP 388
Oxidation Stability of Distillate Fuel Oil
(Accelerated Method)
This test method covers the measurement
of the inherent stability of middle distillate
petroleum fuels under specified oxidizing
conditions at 95°C.
ASTM D4310
Determination of the Sludging and Corrosion
Tendencies of Inhibited Mineral Oils
This test method is used to evaluate the
tendency of inhibited mineral oil based
steam turbine lubricants and mineral oil
based anti-wear hydraulic oils to corrode
copper catalyst metal and to form sludge
during oxidation in the presence of oxygen,
water, and copper and iron metals at an
elevated temperature. The test method is
also used for testing circulating oils having
a specific gravity less than that of water and
containing rust and oxidation inhibitors.
LAB-101-927: wire coiling mandrel
LAB-101-928: reducer manometer
for O 2, primary 0-250 bar, reducer 0-1 bar
LAB-101-929: reducer manometer for air,
primary 0-250 bar, reducer 0-1 bar,
direct connect to traditional vessel
LAB-101-929/I: oil level indicator
LAB-101-441/P: silicon carbide paper
100 grit, pack of 100
LAB-100-371/50: silicone oil, can of 25 l.
T-AS40C: thermometer ASTM 40 IP 70C
T-AS137C: thermometer ASTM 137C
Accessories for ASTM D2274
LT/HD-1280/S6: heating device unit - 600 W
LT/B-2470/ BCA200: analytical balance
LT/DO-248000/F/50S: drying oven
LAB-101-921: oxidation cell
LAB-102-274/A: filter assembly
LAB-102-274/B: filter media
LAB-102-274/C: evaporating vessel
LAB-101-441/P: silicon carbide paper
100 grit, pack of 100
LAB-100-371/50: silicone oil, can of 25 l.
T-AS40C: thermometer ASTM 40 - IP 70C
Accessories for ASTM D4310
LAB-2460-250: vacuum pump
LT/DO-248000/F/50S: drying oven
LAB-101-921: oxidation cell
LAB-101-922: wire catalyst copper/steel
1.63 / 1.59 mm dia., 3 m, pack of 5
Art. LT/OX-192000/M
Oxidation Bath ASTM D943 - D2274 - D4310
- Five-place stainless steel tank
- Insulated double wall
- Stainless steel resistance
- Motor stirrer
- Double bottom supporting 5 cells
-5
-place flowmeter system fitted
with 5 flowmeters with an Ov 2 average
flow of 50 ml/minute (3 l/h) throttle
valves equipped with a 5-place
refrigerating system with pipelines
for water inlet and outlet
- Temperature controlled by a digital
thermoregulator PID with overtemperature alarm and a probe PT100A
- Range: ambient to 100°C
LAB-101-923: thermometer bracket
LAB-101-924/50: syringe luer-lock 50 ml
LAB-101-927: wire coiling mandrel
LAB-101-928: reducer manometer for O 2,
primary 0-250 bar, reducer 0-1 bar
LAB-101-929: reducer manometer for air,
primary 0-250 bar, reducer 0-1 bar,
direct connect to traditional vessel
LAB-101-929/I: oil level indicator
LAB-101-441/P: silicon carbide paper
100 grit, pack of 100
LAB-100-371/50: silicone oil can of 25 litres
T-AS40C: thermometer ASTM 40 - IP 70C
T-0943: thermometer special for cell,
80° +100°C, div. 0.1°,
immersion 76 mm, L = 250 mm
Spare Parts for ASTM D943
LAB-101-921: oxidation cell
LAB-101-922: wire catalyst copper/steel
1.63/1, Ø 59 mm, 3 m, pack of 5
LAB-101-441/P: silicon carbide paper,
pack of 100
LAB-100-371/50: silicone oil, can of 25 l.
Spare Parts for ASTM D2274
LAB-101-921: oxidation cell
LAB-101-441/P: silicon carbide paper,
pack of 100
LAB-100-371/50: silicone oil, can of 25 litres
Spare Parts for ASTM D4310
LAB-101-921: oxidation cell
LAB-101-922: wire catalyst copper/steel
1.63/1, Ø 59 mm, 3 m, pack of 5
LAB-101-441/P: silicon carbide paper,
pack of 100
LAB-100-371/50: silicone oil, can of 25 litres
LAB-110-012: heater
LAB-160-014: digital thermoregulator
LAB-140-002: probe PT100
LAB-150-015: static relay
Dry bath versions also available:
art. LT/OX-192000-8/DM.
Accessories for ASTM D943
LAB-101-921: oxidation cell
LAB-101-922: wire catalyst copper/steel
1.63/1, Ø 59 mm, 3 m, pack of 5
LAB-101-923: thermometer bracket
LAB-101-924/10: syringe luer-lock 10 ml
LAB-101-924/50: syringe luer-lock 50 ml
LAB-101-925: syringe sampling tube
stainless steel tubing
LAB-101-926: sampling tube holder
for supporting the syringe sampling tube
LT/OX-192000-8/DM
LT/OX-192000-5/M
96 Oxidation
Oxidation Stability
of Gasoline and Aviation Fuels
ASTM D525 - ASTM D873
DIN 51780 - DIN 51799
IP 40 - IP 138
ISO 7536
ASTM D525 - IP 40 - DIN 51780 - ISO 7536
Oxidation Stability of Gasoline
(Induction Period Method)
This test method covers the determination
of the stability of gasoline in finished
form only, under accelerated oxidation
conditions.
ASTM D873 - IP 138 - DIN 51799
Oxidation Stability of Aviation Fuels
(Potential Residue Method)
This test method covers the determination
of the tendency of aviation reciprocating,
turbine, and jet engine fuels to form gum
and deposits under accelerated ageing
conditions.
LAB-102-002: glass sample container
with cover, pack of 2
LAB-102-006: indicator pressure gauge
radial, 0-14 bar
LAB-102-007: indicator pressure gauge
radial 1/8”, 0-200 psi
LAB-102-012: pressure transmitting
capillary for connection oxidation vessel
to pressure recorder
LAB-102-013: junction O 2
LAB-102-014: pressure reducer
T-AS22C: thermometer ASTM 22C
T-AS22F: thermometer ASTM 22F
Art. LT/OS-201000-2/M
Oxidation Stability Bath (2 places) - ASTM D525
- Completely made in stainless steel
- About 30 litres capacity
- H eated by electric stainless steel heater
controlled by a thermoregulator
- C over serves as condenser
with connections for water circulation
- Temperature range: ambient to 100°
Art. LT/OS-201000-4/M
Oxidation Stability Bath (4 places)
- Completely made in stainless steel
- About 40 litres capacity
- H eated by electric stainless steel heater
controlled by a thermoregulator
- C over serves as condenser with
connections for water circulation
- Temperature range: ambient to 100°
Power Supply
220Vac 50/60 Hz
Dimensions
cm 60 × 60 × 100
Weight
kg 65
Accessories for ASTM D525 - D873
LT/OPV-200000: oxidation pressure vessel
made in stainless steel, complete
with o-ring, stem needle valve, fast
connection, 30 bar pressure certificate
LT/B2470/BC150: balance
LT/248000/F/50: drying oven
LAB-102-005: burst disc assembly
LAB-102-001: recorder pressure gauge
2 pens, 0-200 psi, div. 2
LT/OS-201000-2/M
Accessories for ASTM D873
LAB-102-015: filtering crucible
LAB-102-016: cooling vessel
Spare Parts for ASTM D525
LAB-102-005: burst disc assembly
LAB-102-001/P: paper recording chart,
pack of 100
LAB-102-002: glass sample container
with cover, pack of 2
LAB-102-003: gasket, pack of 10
LAB-102-004: Teflon ® gasket, pack of 10
Spare Parts for ASTM D873
LAB-102-005: burst disc assembly
LAB-102-001/P: paper recording chart,
pack of 100
LAB-102-002: g
lass sample container
with cover, pack of 2
LAB-102-003: gasket, pack of 10
LAB-102-004: Teflon ® gasket, pack of 10
LAB-102-015: filtering crucible
LAB-102-016: cooling vessel
LT/OPV-200000
97 Oxidation
Oxidation Stability
of Mineral Insulating Oil
ASTM D2440
IP 280
Oxidation Stability of Mineral Insulating Oil
This test method determines the resistance
of mineral transformer oils to oxidation
under prescribed accelerated aging
conditions. Oxidation stability is measured
by the propensity of oils to form sludge
and acid products during oxidation. This
test method is applicable to new oils, both
uninhibited and inhibited, but is not well
defined for used or reclaimed oils.
LAB-101-980
LT/OXS-198000/M
Art. LT/OXS-198000/M
Oxidation Stability Bath for ASTM D2440
- O il bath for the immersion of 6 standard
test-tubes held by a double bottom
- Stainless steel structure
- Insulated double wall
- S ix independent flowmeters that transfer
oxygen at a 1 l/h rate
- O il thermostatics is controlled by a
digital thermoregulator PID with overtemperature alarm and probe PT100A
- Heavy duty motor stirrer
- Outlet system
- Complete of glassware
Accessories
LAB-101-982: air reducer
LAB-101-922: wire catalyst copper/steel
1.63/1, Ø 59 mm, 3 m, pack of 5
LAB-100-371/50: silicone oil, can of
25 litres
LAB-100-332: digital stopwatch
T-AS41C: thermometer ASTM 41C
Spare Parts
LAB-101-922: wire catalyst copper/steel
1.63/1, Ø 59 mm, 3 m, pack of 5
LAB-100-371/50: silicone oil,
can of 25 litres
LAB-101-980: glassware, set of 6 pieces
LAB-110-012: heater
LAB-160-014: digital thermoregulator
LAB-140-002: probe PT100
LAB-150-015: static relay
LAB-101-922
98 Oxidation
Oxidation Stability:
RBOT and TFOUT Bath
LT/OS-197000/M
LAB-101-971, -974/A /B /C
99 Oxidation
Oxidation Stability:
RBOT and TFOUT Bath
ASTM D2112 - ASTM D2272 - ASTM D4742
IP 229
ASTM D2112
Oxidation Stability of Inhibited Mineral
Insulating Oil by Pressure Vessel
This test method is intended as a rapid
method for the evaluation of the oxidation
stability of new mineral insulating oils
containing a synthetic oxidation inhibitor.
This test is considered of value in checking
the oxidation stability of new mineral
insulating oils containing 2,6-ditertiary-butyl
para-cresol or 2,6-ditertiary-butyl phenol,
or both, in order to control the continuity
of this property from shipment to shipment.
The applicability of this procedure for use
with inhibited insulating oils of more than
12 cSt at 40°C (approximately 65 SUS at
100°F) has not been established.
ASTM D2272
Oxidation Stability of Steam Turbine Oils
by Rotating Pressure Vessel (RBOT)
This test method utilizes an oxygenpressured vessel to evaluate the oxidation
stability of new and in-service turbine oils
having the same composition (base stock
and additives) in the presence of water and
a copper catalyst coil at 150°C.
ASTM D4742
Oxidation Stability of Gasoline Automotive
Engine Oils by Thin-film Oxygen Uptake
(TFOUT)
This test method evaluates the oxidation
stability of engine oils for gasoline
automotive engines. This test, run at
160°C, utilizes a high pressure reactor
pressurized with oxygen along with
a metal catalyst package,
a fuel catalyst, and water in a partial
simulation of the conditions to which
an oil may be subjected in a gasoline
combustion engine. This test method can
be used for engine oils with viscosity in
the range from 4 mm 2 /s (cSt) to 21 mm 2 /s
(cSt) at 100°C, including re-refined oils.
Art. LT/OS-197000/M
RBOT and TFOUT Bath
ASTM D2112 - D2272 - D4742
- B ath made in stainless steel for two
vessels with capacity about 60 litres
where the oxidation cylinders are turned
at 100rpm with a 30° angle according
to ASTM specifications
- B ath temperature rate from ambient
to 199°C ±0.1°
- C ontrolled by a digital thermoregulator PID
with over-temperature alarm and PT100A
Accessories for ASTM D2112 - D2272
LT/WM-227200: electric winding mandrel
for copper wire catalyst coiling
LT/B-2470/ BC150: balance
LAB-101-971: RBOT vessel
made in stainless steel
LAB-101-972: pressure gauge 0-200 psi,
div. 5
LAB-101-973/A: minirecorder pressure
gauge 0-200 psi
LAB-101-974/A: container 175 ml
LAB-101-974/B: Teflon ® cover
LAB-101-974/C: glass cover
LAB-101-922: wire catalyst copper/steel
Ø 1.63 / 1.59 mm, 3 m, pack of 5
LAB-101-441/P: silicon carbide paper
100 grit, pack of 100
LAB-100-371/50: silicone oil,
can of 25 litres
T-AS96C: thermometer ASTM 96C
IP 229
Relative Oxidation Stability by Rotating Bomb
of Mineral Turbine Oil
This method covers a rapid means
for estimating the oxidation stability of new
turbine oils having the same composition
(RBOT).
LT/WM-227200
T-IP37C: thermometer IP 37C
Accessories for ASTM D4742
LT/B-2470/ BC150: balance
LAB-101-976: TFOUT vessel
made in stainless steel
LAB-101-972: pressure gauge 0-200 psi,
div. 5
LAB-101-973/A: minirecorder pressure
gauge 0-200 psi
LAB-101-978/A: container
LAB-101-978/B: Teflon ® cover
LAB-101-978/C: glass cover
LAB-101-979/A: soluble metal catalyst
mixture
LAB-100-371/50: silicone oil,
can of 25 litres
T-AS100C: thermometer ASTM 100C
Spare Parts for ASTM D2112 - D2272
LAB-101-973/B: paper recording chart,
pack of 100
LAB-101-973/C: nibs, pack 10
LAB-101-922: wire catalyst copper/steel
Ø 1.63 / 1,59 mm, 3 m, pack of 5
LAB-101-441/P: silicon carbide paper
100 grit, pack of 100
LAB-100-371/50: silicone oil,
can of 25 litres
LAB-101-979/B: gasket
Spare Parts for ASTM D4742
LAB-101-973/B: paper recording chart,
pack of 100
LAB-101-973/C: nibs pack 10
LAB-101-979/A: soluble metal catalyst
mixture
LAB-100-371/50: silicone oil,
can of 25 litres
LAB-101-979/C: gasket
LAB-110-012: heater
LAB-160-014: digital thermoregulator
LAB-140-001: probe PT100
LAB-150-015: static relay
100 Penetration
Penetration of Bituminous Material,
Grease, Petrolatum, Waxes, Gel
LT/P-66000/M
101 Penetration
Penetration of Bituminous Material,
Grease, Petrolatum, Waxes, Gel
ASTM D5 - D217 - D937 - D1321 - D1403
- D1831 - D2884
DIN 51579 - DIN 51580 - DIN 51804
- DIN 52010
IP 49 - IP 50 - IP 179 - IP 310 - IP 376
ISO 2137
ASTM D5, IP 49, DIN 52010
Penetration of bituminous material
For determination of the penetration of
semi-solid and solid bituminous materials.
ASTM D217, ASTM D1403, IP 50, IP 310,
DIN 51804, ISO 2137
Cone penetration of lubricating grease
Cover four procedures for measuring
the consistency of lubricating greases
by the penetration of a cone of specified
dimensions, mass and finish.
ASTM D937, IP 179, DIN 51580, ISO 2137
Cone penetration of petrolatum
Covers measuring with a penetrometer
the penetration of petrolatum
as an empirical measure of consistency.
ASTM D1321, IP 376, DIN 51579
Needle penetration of petroleum waxes
Covers the empirical estimation of the
consistency of waxes derived from
petroleum by measurement of the extent
of penetration of a standard needle.
This test method is applicable to waxes
having a penetration of not greater than 250.
ASTM D1831
Roll stability of lubricating grease
Covers determination of the changes
in the consistency, as measurably cone
penetration, of lubricating greases when
worked in the roll stability test apparatus.
ASTM D2884
Yield stress of heterogeneous propellants
by cone penetration method
Covers determination of the yield stress
of heterogeneous propellants, both
of the gel and emulsion types, containing
from 0 to 70% solid additives.
Art. LT/P-65000/M
Precision penetrometer
ASTM D5, D217, D937, D1321, D1403,
D1831, D2884
- Metallic base with inset spirit level
and adjustable feet
-S
tainless steel column supporting
a calibrated dial with 360 divisions
corresponding to 1/10 of mm and release
button with manual halting function
- Micrometric regulation
- 47.5 gr plunger in stainless steel
- Check light
Art. LT/P-66000/M
Semiautomatic penetrometer
ASTM D5, D217, D937, D1321, D1403,
D1831, D2884
- Metallic base with inset spirit level and
adjustable feet
-P
late painted with epoxy products
that works as a control box with precision
digital timer
-S
tainless steel column supporting
a calibrated dial with 360 divisions
corresponding to 1/10 of mm and release
button controlled by a low voltage
solenoid, controlled on its turn by a timer
- 47.5 gr plunger in stainless steel
- M icrometric regulation of movements
with a check light
Accessories
LT/TB-72200/M: transfer bath
LAB-100-660/A: transfer dish
LAB-100-661/50: 50G plunger weight
LAB100-661/10: 1
00G plunger weight
LAB-100-662: needle ASTM D5, IP 49,
2.5 g, pack of 5
LAB-100-663: needle ASTM D1321,
DIN 51579, 2.5 g, in hardened steel
LAB-100-664: cone ASTM D217, D937,
IP 50, IP 179, DIN 51804, ISO 2137,
102.5 g, Ø 65 mm body of brass,
stainless steel tip
LAB-100-665: cone ASTM D217,
102.5 gr Ø 69 mm
LAB-100-711: cone ½ ASTM D1403,
IP 310, 22.5 g, body of brass,
stainless steel tip
LAB-100-715: cone ¼ ASTM D1403,
IP 310, 1.20 gr body Plexiglas ®,
stainless steel tip
LAB-100-719: propellant cone
ASTM D2884 15 gr, Ø 65 mm, magnesium
LAB-100-720: Hickson cone 35 gr,
Ø 65 mm paints/paste body
of aluminium, stainless steel tip
LAB-100-666/A: sample container 55 × 35
mm bitumen, penetration up to 200
made in brass, pack of 10
LAB-100-666/B: sample container
70 × 45 mm bitumen, penetration between
200 to 350 made in brass, pack of 10
LAB-100-666/C: sample container
55 × 60 mm bitumen, penetration between
350 to 500 made in brass, pack of 10
LAB-100-666/D: glass dish 120 × 60 mm
for sample container, pack of 3
LAB-100-666/E: sample container
55 × 70 mm for bitumen, pack of 10
LAB-100-667/A: sample container
76 × 64 mm for not manipulate sample
bitumen, pack of 10
LAB-100-667/B: sample container
ASTM D1321, pack of 5
LAB-100-667/C: base ASTM D1321
63.5 × 38 × 6.4 mm
LAB-100-668: sample container ASTM
D402 for bitumen, 76 × 54 mm, pack of 10
LAB-100-669: sample container
ASTM D217, D937, IP 179, Ø 100 mm
with cover, pack of 3
LAB-100-670: sample container aluminium,
pack of 100
LAB-100-713: sample container ½
38 × 32 mm 36 ml capacity, pack of 3
LAB-100-717: sample container ¼
19 × 11.5 mm 3.3 ml capacity, pack of 3
LAB-100-712: slider ½ 15 gr
LAB-100-716: Plexiglas ® slider ¼ 8.18 gr.
LAB-100-331: analog stopwatch (for 650)
LAB-100-332: digital stopwatch (for 650)
T-AS63C: thermometer ASTM 63C
T-AS63F: thermometer ASTM 63F
T-AS64C: thermometer ASTM 64C
T-AS64F: thermometer ASTM 64F
T-AS17C: thermometer ASTM 17C
T-AS17F: thermometer ASTM 17F
T-IP38C: thermometer IP 38C
Spare Parts
LAB-100-655: light
LAB-100-660/A: transfer dish
LAB-100-661/50: 50 gr plunger weight
LAB-100-661/100: 100 gr plunger weight
LAB-100-662: penetration needle
ASTM D5, IP 49, 2.5 gr, pack of 5
LAB-100-663: penetration needle
ASTM D1 321, DIN 51579, 2.5 gr
in hardened steel
LAB-100-664: penetration cone
ASTM D217, D937, IP 50, IP 179, DIN
51804, ISO 2137, 102.5 g, Ø 65 mm,
body of brass, stainless steel tip
LAB-100-665: penetration cone
ASTM D217 102.5 gr, Ø 69 mm
LAB-100-711: penetration cone ½
ASTM D1403, IP 310, 22.5 gr, body
of brass, stainless steel tip
LAB-100-715: penetration cone ¼
ASTM D1403, IP 310, 1.20 gr, body
Plexiglas ®, stainless steel tip
LAB-100-719: propellant cone
ASTM D2884 15 gr, Ø 65 mm, magnesium
LAB-100-720: Hickson cone for paints
and paste, 35 gr, Ø 65 mm, body of
aluminium, stainless steel tip
LAB-100-666/A: sample container
55 × 35 mm for bitumen, penetrations up
to 200, made in brass, pack of 10
LAB-100-666/B: sample container
70 × 45 mm for bitumen, penetrations
between 200 to 350, made in brass, pack
of 10
LAB-100-666/C: sample container
55 × 60 mm for bitumen, penetrations
between 350 to 500, made in brass,
pack of 10
LAB-100-666/D: glass dish 120 × 60 mm
for sample container, pack of 3
LAB-100-666/E: sample container
55 × 70 mm for bitumen, pack of 10
LAB-100-667/A: sample container
76 × 64 mm for not manipulate sample
bitumen, pack of 10
LAB-100-667/B: sample container
ASTM D1321, pack of 5
LAB-100-667/C: base ASTM D1321
63.5 × 38 × 6.4 mm
LAB-100-668: sample container
ASTM D402 for bitumen, 76 × 54 mm,
pack of 10
LAB-100-669: sample container
ASTM D217, D937, IP 179, Ø100 mm
with cover, pack of 3
LAB-100-670: sample container
in aluminium, pack of 100
LAB-100-713: sample container ½
38 × 32 mm, 36 ml capacity, pack of 3
LAB-100-717: sample container ¼
19 × 11.5 mm, 3.3 ml capacity, pack of 3
LAB-100-712: slider ½ 15 gr
LAB-100-716: Plexiglas ® slider ¼ 8.18 gr.
LAB-150-038: low voltage solenoid (for 660)
LAB-150-037: push button (for 660)
LAB-150-080: digital timer (for 660)
102 Residues
Ash Determination
ASTM D482 - ASTM D874 - ASTM D4422
IP 4 - IP 163
ISO 3987 - ISO 6245
ASTM D482 - IP 4 - ISO 6245
Ash from Petroleum Products
This test method covers the determination
of ash in the range 0.001- 0.180 mass %,
from distillate and residual fuels, gas turbine
fuels, crude oils, lubricating oils, waxes, and
other petroleum products, in which
any ash-forming materials present are
normally considered to be undesirable
impurities or contaminants. The test
method is limited to petroleum products
which are free from added ash-forming
additives, including certain phosphorus
compounds.
ASTM D874 - IP 163 - ISO 3987
Sulfated Ash from Lubricating Oils
and Additives
This test method covers the determination
of the sulfated ash from unused lubricating
oils containing additives and from additive
concentrates used in compounding.
These additives usually contain one or more
of the following metals: barium, calcium,
magnesium, zinc, potassium, sodium, and tin.
The elements sulfur, phosphorus, and
chlorine can also be present in combined
form. Application of this test method to
sulfated ash levels below 0.02 mass%
is restricted to oils containing ashless
additives. The lower limit of the method is
0.005 mass% sulfated ash.
ASTM D4422
Ash in Analysis of Petroleum Coke
This test method covers the determination
of the ash content of petroleum coke.
Art. LT/MF-272000/M
Ash Determination - ASTM D482 D874 D4422
- I nsulation heat made in ceramics fibre in
order to get a speed heating with a limited
energetic consumption
- H eating muffle unthreaded from the back,
in an only cast of refractory cordieletic
material to provide for thermal jolts
- Resistors in Kanthal screened
LT/MF-272000/M
Aromatic Hydrocarbon
in Gasolines by Adsorption
-L
ateral opening door with pressure wedge
and with a stop device for electric feeding
when it opens, allowing the worker, during
the loading and unloading of the muffle,
to act with the utmost safety avoiding
the contact with the burning part
- N atural draught posterior exhaust
of the smokes
- C ontrol panel is positioned on the furnace
bottom containing a digital visualized
thermoregulator and safety switch for
system protection
- Max temperature 1100°C
Power Supply Availables
- Single phase tension: 220 Vac
- Three phase tension: 380 Vac
- Frequency: 50 / 60 Hz
- Power: Kw 3.9
Accessories for ASTM D482 - IP 4
LT/B-2470/ BC 200: analytical balance
LT/MS-124000/M: mechanical shaker
LAB-102-721: evaporating dish
made in platinum, 100 ml, pack of 5
LAB-102-722: crucible made in porcelain,
100 ml, pack of 5
LAB-100-745: Meker gas burner
Accessories for ASTM D874 - IP 163
LT/B-2470/ BC 200: analytical balance
LAB-102-722: crucible made in porcelain,
100 ml, pack of 5
LAB-102-723: crucible made in porcelain,
150 ml, pack of 5
Useful inside dimensions in cm
- width 21
- depth 32
- height 14.5
ASTM D2002
Aromatic Hydrocarbon in Olefin-free Gasolines
by Silica Gel Adsorption
This method covers the determination of
total aromatic content of gasolines and
other debutanized hydrocarbon mixtures
that distill below 240°C (400°F) and
which contain less than 1% of olefinic
hydrocarbon.
Art. LT/AH-229000/M
Adsorption Apparatus ASTM D2002
- A dsorption column with upper female
tapered linkage
- M ale tapered cap equipped with
connection
Accessories
LAB-102-291: graduated receiver 11 ml
LAB-102-241: vibrator unit portable
LAB-102-242: syringe 1 ml capacity,
div. 0.01 ml, stainless steel needle
L = 102 mm
LAB-102-243: UV lamp
LAB-102-251/A: silica gel 12 degree 12,
28-200 mesh, pack of 2.3 kg
LAB-102-251/C: silica gel 922 degree 922,
200 mesh, pack of 2 kg
LAB-102-252: fluorescent “dyed gel”
original USA, pack of 40 gr.
LAB-102-223: reducer manometer
Spare Parts
LAB-102-292: adsorption column
LAB-102-293: conical trip
LAB-102-294: graduated receiver
Encumbrance dimensions in cm
- width 50
- depth 65
- height 65
Accessories for ASTM D4422
LT/B-2470/ BC 200: analytical balance
LT/DO-248000/N50: drying oven
LAB-102-724: crucible made in porcelain,
30 ml, pack of 5
LT/AH-229000/M
103 Residues
Asphaltenes Extraction
Conradson
ASTM D6560 - IP 143 - DIN 51595
ASTM D189 - ASTM D2416
DIN 51551
IP 13
ISO 6615
Determination of Asphaltenes
(Heptane Insolubles)
in Crude Petroleum and Petroleum Products
Covers a procedure for the determination
of the heptane insoluble asphaltene
content of gas oil, diesel fuel, residual fuel
oils, lubricating oil, bitumen, and crude
petroleum that has been topped to an oil
temperature of 260°C
Art. LT/AA-114000/M
Determination Asphaltenes Apparatus
ASTM D6560
- Electric heater
-2
tampered joint extractor 24/40
and 34/45
- 500 ml Erlenmeyer flask
- Cone 24/40
- Condenser cone 24/40
Accessories
LT/B-2470/ BCA200: analytical balance
Inox pan. Ø: 80 mm
Capacity: 210 g
Readability: 0.1 mg
Linearity: ±0.2 mg
Repeatability: ±0.05 mg
Calibration: internal
LAB-101-132/1000: Erlenmeyer flask 1000 ml
LAB-101-132/250: Erlenmeyer flask 250 ml
LAB-101-132/150: Erlenmeyer flask 150 ml
LAB-101-132/100: Erlenmeyer flask 100 ml
Spare Parts
LAB-101-132/1000: Erlenmeyer flask 1000 ml
LAB-101-132/500: Erlenmeyer flask 500 ml
LAB-101-132/250: Erlenmeyer flask 250 ml
LAB-101-132/150: Erlenmeyer flask 150 ml
LAB-101-132/100: Erlenmeyer flask 100 ml
LAB-101-144: condenser
LAB-150-110: electronic regulator
LAB-110-022: heater
ASTM D189 - DIN 51551 - IP 13 - ISO 6615
Conradson Carbon Residues
of Petroleum Products
This test method covers the determination
of the amount of carbon residue left after
evaporation and pyrolysis of an oil,
and is intended to provide some indication
of relative coke-forming propensities.
ASTM D2416
Coking Value of Tar and Pitch
This test method covers the determination
of the coking value of tar and pitch having
an ash content not over 0.5 %.
Art. LT/CCR-96000/M
Conradson Carbon Residues Apparatus ASTM D189
- L PG-heated by Meker lamp fitted
with safety valve
- Insulating ring block
- Metal tripod holder with Nichrome triangle
- Stainless steel chimney
- Inner porcelain crucible
- Middle iron crucible fitted with Skidmore lid
- External iron crucible fitted with lid
Art. LT/CCV-97000/M
Conradson Coking Value Apparatus
ASTM D2416
- Vertical electric furnace
- Insulating ring block
- Metal tripod holder with nichrome triangle
- Stainless steel chimney
- Inner porcelain crucible
- Middle iron crucible fitted with Skidmore lid
- External iron crucible fitted with lid
Accessories
LT/B-2470/ BC150: balance
Spare Parts
LAB-100-961:
LAB-100-962:
LAB-100-963:
LAB-100-964:
LAB-100-966:
LAB-100-967:
LT/AA-114000/M
inner porcelain crucible
middle iron crucible
external iron crucible
Skidmore
Nichrome triangle
cover for external crucible
LT/CCR-96000/M
104 Residues
Fluorescent Indicator Adsorption
FIA
ASTM D1319
EN 10 (obs.)
FTM 791-3703
IP 156
JIS K 2536
ISO 3837
NF M07-024
ASTM D1319 - IP 156 Hydrocarbon Types in
Liquid Petroleum Products by Fluorescent
Indicator Adsorption
This test method covers the determination
of hydrocarbon types over the
concentration ranges from 5 to 99
volume % aromatics, 0.3 to 55 volume %
olefins, and 1 to 95 volume % saturates in
petroleum fractions that distill below 315°C.
Art. LT/FA-225000-S/M
FIA Standard Columns (2 places)
- F lat support made in black material
equipped with spring connections that
block 2 absorption standard columns
- 2 analyser
- 2 spherical joint
- 2 linear rulers with sliding pointers
- 2 socket places fitted with a reducer and
manometer for controlling the nitrogen
pumped into the columns
- 1 stainless steel lamp holder with 365nm
UV light source
Art. LT/FA-225000-P/M
FIA Precision “True Bore” columns (2 places)
- F lat support made in black material
equipped with spring connections that
block 2 precision
“True Bore” columns
- 2 spherical joint
- 2 linear rulers with sliding pointers
- 2 socket places fitted with a reducer and
manometer for controlling the nitrogen
pumped into the columns
- 1 stainless steel lamp holder with 365nm
UV light source
Art. LT/FA- 224000-S/M
FIA Standard Columns (4 places)
-F
lat support made in black material
equipped with spring connections that
block 4 absorption standard columns
- 4 analyser
- 4 spherical joint
- 4 linear rulers with sliding pointers
-4
socket places fitted with a reducer and
manometer for controlling the nitrogen
pumped into the columns
-2
stainless steel lamp holder with 365nm
UV light source
Art. LT/FA- 224000-P/M
FIA Precision “True Bore” columns (4 places)
- F lat support made in black material
equipped with spring connections that
block 4 precision “True Bore” columns
- 4 spherical joint
- 4 linear rulers with sliding pointers
- 4 socket places fitted with a reducer and
manometer for controlling the nitrogen
pumped into the columns
- 2 stainless steel lamp holder with 365nm
UV light source
Accessories
LAB-102-241: vibrator unit portable
LAB-102-242: syringe 1 ml capacity,
div. 0.01 ml,
stainless steel needle L=102 mm
LAB-102-251/B: silica gel 923 degree 923,
100-200 mesh, pack of 2 kg
LAB-102-252: fluorescent “Dyed Gel”
original USA, pack of 40 gr.
LAB-102-253: attapulgite ASTM D2007
RVM 30-60 mesh, pack of 2 kg
Spare Parts
LAB-102-220: standard columns, pack of 2
LAB-102-230: precision “True Bore”
columns
LAB-102-222: spherical joint “28”,
pack of 2
LAB-102-224: pliers for spherical “28”
LAB-102-231: analyser 1.6 × 1220 mm,
pack of 25
LAB-102-251/B: silica gel 923 degree 923,
100-200 mesh, pack of 2 kg
LAB-102-252: fluorescent “Dyed Gel”
original USA, pack of 40 gr.
LAB-102-254: UV light source
LAB-102-241
LT/FA- 225000-S/M
105 Residues
Lead, Acid and Salt Content
ASTM D2547 (obs.)
IP 77 - IP 182 - IP 248
ISO 2083
ASTM D2547 (obs.) - IP 248 - ISO 2083
Lead in Gasoline Volumetric
Chromate Method
Covers the volumetric determination
of the total lead content of gasoline and
other volatile distilled blended with lead
alkyls within the concentration range
of 0.04 to 1.1 gr of lead/litre.
IP 77 - Determination of Salt Content by
Extraction and Volumetric Titration
This method is intended for the
determination of total halide concentration
of 0.002 to 0.02%wt, in crude petroleum,
topped crude, residual cracking stock,
and fuel oil. It may also be applied to the
estimation of seawater contamination of
used turbine oil and of marine diesel fuel.
IP 182 - Acidity (Inorganic)
of Petroleum Products
This method is intended to provide a
measure of the inorganic (strong) acid
content of used and unused lubricating
oils, fuel oils, and petrolatums. Misleading
results may be obtained with oils containing
additives.
Pona
Art. LT/EA-244000/M
Extraction Apparatus - ASTM D2547
- D ual extractor apparatus for the
determination of lead, acid and salt
content
- Two independent sets of glassware
- C ontrolled by two independent
electronic regulator
- Cooling water supply
Spare Parts
LAB-112-441:
LAB-102-442:
LAB-102-443:
LAB-102-444:
LAB-102-445:
LAB-150-110:
heater
boiling tank 500 ml
reflux condenser
graduated funnel
beaker 600 ml
electronic regulator
ASTM D2001
Depentanization of Gasoline and Naphtha
This test method covers the removal
of pentanes and lighter hydrocarbons from
gasolines, naphtha, and similar petroleum
distillates to prepare samples suitable
for the determination of hydrocarbon types
in accordance with Test Method D1319
or Test Method D2789. In addition, this test
method determines the volume percent
of bottoms remaining after depentanization.
Art. LT/PO-228000/M
Pona Apparatus ASTM D2001
- Distillation column
- Reflux condenser head
- Light-ends trap
- 12.5 ml graduated receiver
- Clamp for spherical pieces
- Dewar jar
- Thermometer tapered cap
- Thermometer ASTM 38C
- Electric heater jacket
Power Supply:
- 220Vac 50/60 Hz
Dimensions:
- cm 50 × 50 × 120
Weight:
- kg 8
Accessories
LT/TB-72200/M: transfer bath
LAB-102-281: Heli-pak B+C original USA,
pack of 100 + 100 ml
Spare Parts
LAB-102-282: distillation column
LAB-102-283: reflux condenser head
LAB-102-284: light-ends trap
LAB-102-285: graduated receiver
LAB-102-286: flask 100 ml
LAB-102-287: thermometer tapered cap
LAB-102-289: dewar jar
T-AS38C: thermometer ASTM 38C
LT/EA- 225000-S/M
LT/FA- 225000-S/M
106 Residues
Ramsbottom
ASTM D524
IP 14
ISO 4262
ASTM D524 - IP 14 - ISO 4262
Ramsbottom Carbon Residue of Petroleum
Products
This test method covers the determination
of the amount of carbon residue left after
evaporation and pyrolysis of an oil,
and is intended to provide some indication
of relative coke-forming propensity.
Art. LT/RCR-98000/M
Ramsbottom ASTM D524
- Heating block equipped with 5 wells
- Stainless steel external structure
- H eating group controlled by a digital
thermoregulator PID with overtemperature alarm and thermocouple K
- C ontrol stainless steel crucible connected
to thermocouple
-R
eading is provided by a digital
thermometer
-H
ollow space between the walls is fitted
with a high efficiency insulator
Smoke Point
Accessories
LT/B-2470/ BCA200: analytical balance
LAB-100-981: coke bulb borosilicate glass,
pack of 10
LAB-100-982: luer-lock syringe 10 ml
LAB-100-983: tongs for removing coke bulb
from the block bath
LAB-100-984: filling rack for 5 coking bulbs
ASTM D1322
IP 57
Spare Parts
LAB-100-981: coke bulb borosilicate glass,
pack of 10
LAB-100-985: control bulb
LAB-140-003: thermocouple K
LAB-140-003/CR: thermocouple K
for bulb digital
LAB-160-014: thermoregulator
LAB-160-019: digital thermometer
LAB-150-015/40: static relay
Art. LT/SP-253000/M
Smoke Point ASTM D1322
- Brass lamp painted in black
- M illimetric white scale
on a black background
- Window with mobile glass
- B rass candle with oil tank and cotton wick
180 mm long
- Micrometric setting
Smoke Point of Kerosine
and Aviation Turbine Fuel
This test method covers a procedure
for determination of the smoke point
of kerosine and aviation turbine fuel.
Spare Parts
LAB-102-531:
LAB-102-532:
LAB-102-533:
LAB-102-534:
LAB-102-535:
LT/RCR-98000/M
LT/SP-253000/M
cotton wick, pack of 50
candle with oil tank
concave glass
brass lamp
millimetric scale
107 Residues
Sulfonation Number
ASTM D1019 (obs.)
IP 145 (obs.)
ISO 3840
Olefinic Plus Aromatic Hydrocarbons
in Petroleum Distillates
This method covers the determination
of olefinic plus aromatic hydrocarbons
in gasolines, naphtas, kerosenes and other
petroleum distillates that are substantially
free from butanes and that have a 90% not
over 600 F.
Art. LT/SA-120000/M
Sulfonation Number Apparatus
ASTM D1019, composed by:
- LT/CF-122000-R/M: centrifuge
- LT/DB-428005/M: 4 places
shaking machine
- LAB-101-228: 4 standard sulfonation
flask 100 ml graduated to 0.2 ml
- LAB-101-235: 4 buckets
- LAB-101-234: rubber pads
- LAB-101-201: 4 ice water jar
Unsulfonated Residue
Accessories
LT/B-2470/BC150: balance
LT/CB-40800/M-10: cryostat up to -10°C
LAB-101-230: precision sulfonation
flask 10 ml, pack of 4
LAB-101-231: precision sulfonation
flask 5 ml, pack of 4
Spare Parts
LAB-101-234: rubber pad, pack of 4
LAB-101-228: standard sulfonation flask,
pack of 4
LAB-101-230: precision sulfonation
flask 10 ml, pack of 4
LAB-101-231: precision sulfonation
flask 5 ml, pack of 4
LAB-101-201: ice water jar, pack of 4
ASTM D483
Unsulfonated Residue of Petroleum Plant
Spray Oils
This test method covers the determination
of unsulfonated residue in plant spray oils
of petroleum origin and applies only to the
petroleum oil content.
Art. LT/UA-121000/M
Unsulfonated Residues Apparatus
ASTM D483
- Heated centrifuge
- 4 places shaking machine with bath 100°C
- 4 sulfonation flask 50 ml
- 4 buckets with rubber pads
Accessories
LT/B-2470/BC150: balance
LT/WB-123000/M: water bath
Spare Parts
LAB-101-229: sulfonation flask, pack of 4
LAB-101-234: rubber pad, pack of 4
LAB-101-201
LAB-101-228 -230 -231
LT/DB-428005/M
108 Rust
Rust-preventing Characteristics
LT/RP-194000-4/M
LT/RP-194000-6/M
109 Rust
Rust-preventing Characteristics
ASTM D665 - ASTM D3603 - ASTM D5534
DIN 51585
IP 135
ISO 7120
ASTM D665 - IP 135
Rust-preventing Characteristics of Inhibited
Mineral Oil in the Presence of Water
This test method is used to evaluate the
ability of inhibited mineral oils, particularly
steam-turbine oils, to aid in preventing
the rusting of ferrous parts should water
become mixed with the oil. This test method
is also used for testing other oils, such as
hydraulic oils and circulating oils. Provision
is made in the procedure for testing heavierthan-water fluids.
ASTM D3603
Rust-preventing Characteristics of Steam
Turbine Oil in the Presence of Water
(Horizontal Disk Method)
This test method covers the ability of
steam-turbine oils to prevent the rusting
of horizontal and vertical ferrous surfaces
when water becomes mixed with the oil.
ASTM D5534
Standard Test Method for Vapour-phase
Rust-preventing Characteristics
of Hydraulic Fluids
This test method covers the ability
of hydraulic fluids to prevent the rusting
of steel in the vapour phase
over the hydraulic fluid and water.
DIN 51585 - ISO 7120
Determination of Rust-preventing
Characteristics in the Presence of Water
in Petroleum Products, Lubricants Oils,
Petroleum Oils and Other Fluids
Defines a method for evaluating these
products to indicate the effectiveness in
preventing the rusting of ferrous parts
should. Water becomes mixed the oil/fluid.
The method is for application to inhibited
oils including steam turbine oils,
circulating oils and hydraulic oils and
non-hydrocarbon fluids including fluids
denser than water.
Art. LT/RP-194000-3/M
Rust Prevention Test Bath (3 places)
- Oil bath completely made in stainless steel
- Double insulated wall
-3
places for the immersion
of ASTM containers
- Armoured stainless steel heater
-T
emperature is controlled by a digital
thermoregulator PID with overtemperature alarm and probe PT100A
-3
stainless steel-plate stirrers rotate
in their glasses at a constant speed
of 1000 rpm
- Transmission frame and upper weir
with bearings block and pulley
Art. LT/RP-194000-4/M
Rust Prevention Test Bath (4 places)
Art. LT/RP-194000-6/M
Rust Prevention Test Bath (6 places)
Power Supply:
220Vac 50/60 Hz
Dimensions:
cm 60 × 120 × 80
Weight:
kg 60
Accessories for ASTM D665
LT/248000/F/50: drying oven
LAB-101-172: beaker 400 ml, 70 × 130 mm
LAB-101-941: beaker cover
made in Plexiglas ®
LAB-101-942: test specimen made in steel
LAB-101-943: test specimen holder
made in Plexiglas ®
LAB-101-944: test specimen holder
made in Teflon ®
LAB-101-945: T-shaped stirrer for method
A and B, made in stainless steel
LAB-101-946: T-shaped stirrer
for method C, made in stainless steel
LAB-101-947: aluminium oxide paper
150 grit, pack of 100
LAB-101-948: aluminium oxide paper
240 grit, pack of 100
LAB-101-950: chuck
LAB-101-940: grinding and polishing device
T-AS9C: thermometer ASTM 9C - IP 15C
T-AS9F: thermometer ASTM 9F 15F
T-IP21C: thermometer IP 21C
Spare Parts for ASTM D665
LAB-101-172: beaker 400 ml, 70 × 130 mm
LAB-101-941: beaker over
made in Plexiglas ®
LAB-101-942: test specimen made in steel
LAB-101-943: test specimen holder
made in Plexiglas ®
LAB-101-944: test specimen holder
made in Teflon ®
LAB-101-945: T-shaped stirrer for method
A and B, made in stainless steel
LAB-101-946: T-shaped stirrer
for method C, made in stainless steel
LAB-101-947: aluminium oxide paper
150 grit, pack of 100
LAB-101-948: aluminium oxide paper
240 grit, pack of 100
LAB-101-950: chuck
Spare Parts for ASTM D3603 - D5534
LAB-101-172: beaker 400 ml, 70 × 130 mm
LAB-101-958: beaker 25 ml
(only for ASTM D5534)
LAB-101-955: beaker cover
made in Plexiglas ®
LAB-101-951: horizontal test specimen
made in steel
LAB-101-952: vertical test specimen
made in steel
LAB-101-956: test specimen holder
made in Teflon ®
LAB-101-947: aluminium oxide paper
150 grit, pack of 100
LAB-101-948: aluminium oxide paper
240 grit, pack of 100
LAB-101-954: kasher
LAB-101-957: T-shaped stirrer
made in stainless steel
Accessories for ASTM D3603 - D5534
LAB-101-172: beaker 400 ml, 70 × 130 mm
LAB-101-958: beaker 25 ml
(only for ASTM D5534)
LAB-101-955: beaker cover
made in Plexiglas ®
LAB-101-951: horizontal test specimen
made in steel
LAB-101-952: vertical test specimen
made in steel
LAB-101-956: test specimen holder
made in Teflon ®
LAB-101-947: aluminium oxide paper
150 grit, pack of 100
LAB-101-948: aluminium oxide paper
240 grit, pack of 100
LAB-101-954: washer
LAB-101-940: grinding and polishing device
LAB-101-957: T-shaped stirrer
made in stainless steel
T-AS9C: thermometer ASTM 9C - IP 15C
T-AS9F: thermometer ASTM 9F 15F
T-IP21C: thermometer IP 21C
Spare Parts
LAB-110-012:
LAB-140-002:
LAB-160-014:
LAB-150-015:
heater
PT100 probe
digital thermoregulator
static relay
LAB-101-172, -941, -944, -945
110 Rust
Humidity Cabinet
ASTM D 1748
Rust Protection by Metal Preservatives
in the Humidity Cabinet
This test method is used for evaluating
the rust-preventive properties of metal
preservatives under conditions of high
humidity.
Art. LT/HC-250000/M
Humidity Cabinet - ASTM D 1748
- T hermostatic 18/8 stainless steel tank
with double wall
- H inged cover consists of layer
of desized cotton cloth secured
to an aluminium frame
- B asket rotating at 1/3 rpm housing 33
sample plates
- A ir distributed through 20 porous spheres
placed on the tank bottom
- F lowmeter with valve throttling
at 15l/min air
- L evel is kept constant
by a compensating system
- E lectric heating with 2 armoured stainless
steel heaters
- C ontrolled by a digital thermoregulator PID
with over-temperature alarm
- Two thermometers
- B ottle for feeding the tank and 33 hooks
left and 33 right
Power Supply
220Vac 50/60 Hz
Dimensions
cm 80 x 80 x 70
Weight
kg 60
LT/HC-250000/M
Accessories
LAB-102-501: air system pressure
regulator and column Fresenius
LAB-102-502: sample panel ASTM
made in steel, pack of 5
LAB-102-504: dummy panel
made in PMMA
LAB-102-505: temperature recorder
LAB-102-506: humidity recorder
LAB-102-507/A: aluminium oxide cloth
240 grit, pack of 50
LAB-102-508: silica sand, pack of 1 kg.
LAB-102-509: PH paper, pack of 20
Spare Parts
LAB-102-502: sample panel ASTM
made in steel, pack of 5
LAB-102-503/S: suspension hook,
pack of 5
LAB-102-503/D: suspension hook, right
pack of 5
LAB-102-504: dummy panel
made in PMMA
LAB-102-507/A: aluminium oxide cloth
240 grit, pack of 50
LAB-102-508: silica sand pack of 1 kg.
LAB-102-509: PH paper, pack of 20
LAB-102-510: diffuser stone
LAB-102-507: level bottle
LAB-102-515: desized cotton cloth
LAB-112-501: heater
LAB-140-001: PT100 probe
LAB-160-021: digital thermoregulator
111 Sediments
Particulate Contamination
Sediment in Crude
and Fuel Oils
ASTM D5452
IP 440
Particulate Contamination in Aviation Fuels
This test method covers the gravimetric
determination by filtration of particulate
contaminant in a sample of aviation turbine
fuel delivered to a laboratory.
Art. LT/PC-155000/M
Particulate Contamination ASTM D5452
-M
etallic filter funnel supported by a base
with support for closing of the tightness
membrane
-1
00 pcs. of 0.8 micron membrane filters
Ø 47 mm made of cellulose acetate
- 5 litres filling container made in stainless
steel with stopper for spillage
- Two receiver and security 5 litres
cylindrical bottles for vacuum
- C onnection bottle to bottle
by vacuum tube
- Bottles provided with grounding system
- M etallic structure for apparatus
assembling
- Rubber stoppers and tubes for connection
Art. LT/PC-156000/M
Particulate Contamination IP440
- D iaphragm Filtration Unit, stainless steel
reservoir 500 ml
- f iltration cell with cock, a rubber stopper,
a filter support, a glass pot, a cleaning
filters (pack of 100), a pre-filters,
a test-filters and cover, clamp, seal
- vacuum system with water jet pump
- Woulff flask (1 litre)
- three rubber stoppers
- two angle tubes
- regulating valve
- U-tube manometer
- T-connectors and Tube connectors,
tubing and clamps
ASTM D473
DIN 51789
IP 53
ISO 3735
Sediment in Crude and Fuel Oils
by Extraction Method
Covers the determination of sediment in
crude oils and fuel oils by extraction with
toluene.
The precision applies to a range of sediment
levels from 0.01 to 0.40 % mass, although
higher levels may be determined.
Art. LT/SE-113000/M
Sediment in Crude and Fuel Oils
by Extraction Apparatus - ASTM D473
- 1000 ml Erlenmeyer flask
- S tainless steel basket supporting
an extraction thimble of alundum
- Cooling metal coil
- Water cup
Accessories
LT/HD-1280/S6: heating device unit 600W
LT/B-2470/ BC150: balance
Spare Parts
LAB-101-131: stainless steel basket
LAB-101-132/1000: Erlenmeyer flask
1000 ml
LAB-101-133: extraction thimble
of alundum, pack of 3
LAB-101-134: water cup
LAB-130-009: cooling coil
LT/PC-155000/M
LAB-101-133, -134
LT/SE-113000/M
LT/HD-1280/S6
112 Sediment
Total Sediment Tester
LT/TST-115200/M
113 Sediment
Sulfur and Chlorine
in Petroleum Products
Total Sediment Tester
Spare Parts
LAB-101-153: filter GFA, pack of 100
LAB-101-158: sintered disk, pack of 2
LAB-101-156: flask, 500 ml, pack of 2
ASTM D4870
IP 375 - IP 390 (proc.A)
ISO 10307
Determination of Total Sediment
in Residual Fuels
This test method covers the determination
of total sediment up to 0.40 % m/m
for distillate fuel oils containing residual
components and to 0.50 % m/m
in residual fuel oils having a maximum
viscosity of 55 cSt (mm 2/s) at 100°C
Art. LT/TST-115200/M
Total Sediment Tester - ASTM D4870
- Structure in stainless steel
- Two filtration groups
- Throttle valve
- Heating or cooling coil
- Pipes for steam
- Water and vacuum
- 500 ml flask fitted with protection
- Vacuum manometer
Accessories
LT/B-2470/ BC150: balance
LT/DO-248000/F/50S: drying oven
LAB-101-153: filter GFA, pack of 100
LAB-101-158: sintered disk, pack of 2
LAB-101-154: steam generator
LAB-2460-250: vacuum pump
T-4870: thermometer scale 94° +106°C,
partial immersion, L = 220 mm
Accessories only for IP 390 - ISO 10307
LAB-101-152/BIS: a geing bath.
Constant temperature liquid bath capable
of being maintained at a temperature
of 100 ± 0.5°C. Six air wells through cover
openings, and additional opening for bath
themometer. Air Wells, cylindrical shape 55
mm in inside diameter and 120 mm
in height.
– Structure in stainless steel with 6 air wells
– Working temperature up to 100°C
– Motor stirrer.
– Bath equipped with drain tap.
– Temperature controlled by a digital
thermoregulator PID with overtemperature
alarm and temperature probe
– Safety thermostat with warning lamp
– Power Supply: 230 Vac 50
LAB-101-153/BIS: c onical flask, pack of 10
LAB-101-154/BIS: a ir condenser,
made in glass, pack of 10
T-AS22C: thermometer ASTM 22 C - IP 24 C
Spare Parts only for IP 390 - ISO 10307
LAB-101-153/ BIS: conical flask, pack of 10
LAB-101-154/BIS: a ir condenser,
made in glass, pack of 10
LAB-101-154
Air condenser
Thermometer
Air well
55 mm i.d. x 120 mm long
Oil bath
Test flask
LAB-101-152/BIS
Sulfur
ASTM D129 - ASTM D808
IP 61
DIN 51577
ASTM D129 - IP 61 - DIN 51577
Sulfur in Petroleum Products
(General Bomb Method)
This test method covers the determination
of sulfur in petroleum products, including
lubricating oils containing additives, additive
concentrates, and lubricating greases that
cannot be burned completely in a wick
lamp. The test method is applicable to any
petroleum product sufficiently low
in volatility that it can be weighed accurately
in an open sample boat and containing
at least 0.1% sulfur.
ASTM D808
Chlorine in New and Used Petroleum Products
(Bomb Method)
This test method covers the determination
of chlorine in lubricating oils and greases,
including new and used lubricating oils
and greases containing additives,
and in additive concentrates. Its range of
applicability is 0.1 to 50% chlorine.
The procedure assumes that compounds
containing halogens other than chlorine will
not be present.
Art. LT/HC-207500/M
Sulfur in Petroleum Products Apparatus
ASTM D129 - D808
- 3 00 ml oxygen bomb fully made in
stainless steel, including its two electrodes
- Cover with threaded sliding ring
- Gasket around the cover edge
- Automatic inlet valve
- Exhaust needle valve tested to 210 bar
- I gnition device housed in a plate box
painted with anti-acid epoxy products
- L ow voltage outlet for connection
with the electrodes of the cylinder
- Start button
- Ammeter
- O 2 reducer gear fitted
with two manometers
- Safety valve
- Calibration wheel up to 50 atm.
- Pin valve
- C apillary copper junction with connection
for cylinder charge
- Cover support
- Q uartz dish or, by request, a crucible
made in stainless steel AISI 316
- Cotton wick
- 10 cm platinum ignition wire
Accessories
LT/B-2470-BC150/M: balance
LAB-102-072: water bath for cooling
LAB-100-332: digital stopwatch
Spare Parts
LAB-102-061/A: dish quartz, cap. 3 ml
LAB-102-061/B: stainless steel crucible
AISI 316
LAB-102-062: ignition device
LAB-102-071/B: platinum ignition wire
10 cm
LAB-102-071/D: cotton wick 3 m
LAB-102-066: gasket, pack of 10
114 Sulfur
Sulfur in Petroleum Oils
Quartz-tube Method
ASTM D1551 (obs.)
DIN 51768
IP 63
Sulfur In Petroleum Oils (Quartz-tube Method)
Determines the sulfur content within
the range 0.1 to 5% by weight in petroleum
oils which cannot be burned completely
in a wick lamp.
Art. LT/QT-146000/M
Quartz Tube Sulfur Apparatus
- Two-place instrument mounted on a plate
painted with epoxy products
- E lectric stainless steel furnace
with two independent places
-T
wo digital thermoregulators
with thermocouple
- Two scrubbers
- Trap equipped with two inlet cocks for air
or oxygen and two outlet cocks for
combustion tubes made in transparent
quartz
-T
ubes provided with tapered connections
at the inlet side and spherical connections
at the delivery side
Sulfur in Petroleum Products
Lamp Method
-S
et of primary and secondary absorbers
on support
- Vacuum collector
with two regulating valves
- Two flow-off valves
- Two LPG Meker lamps
- Flame filter mesh for combustion tubes
- Included 20 porcelain boat
Accessories
LAB-2460-250: vacuum pump
LAB-101-466: flowmeter
Spare Parts
LAB-101-461: quartz tube combustion
LAB-101-462/A: primary absorber
glassware
LAB-101-462/B: secondary absorber
glassware
LAB-101-463: scrubber glass
LAB-101-464: porcelain boat
LAB-101-465: glass trap
LAB-160-014: digital thermoregulator
LAB-140-003: thermocouple K
ASTM D1266
IP 107
Sulfur in Petroleum Products (Lamp Method)
This test method covers the determination
of total sulfur in liquid petroleum products
in concentrations from 0.01 to 0.4 mass %.
A special sulfate analysis procedure permits
the determination of sulfur in concentrations
as low as 5 mg/kg.
Art. LT/SL-149000/M
Sulfur Lamp for Liquids Products
ASTM D1266
- Made in glass
- Lapped standard tapers
- 25 ml flask
- Burner
- Chimney
- A bsorbing tube with porous baffle
150 micron
- Drop filter
Art. LT/SL-149100/M
Sulfur Lamp for Aromatics - ASTM D1266
- Made in glass
- Lapped standard tapers
- 25 ml flask with lateral inlet
- Special burner
- Chimney
- A bsorbing tube with porous baffle
150 micron
- Drop filter
LAB-101-464
Art. LT/SL-152000/M
Sulfur Lamp (6 places) - ASTM D1266
- S tructure made in plate painted
with epoxy products
- 6 lamps
- 3 Pyrex ® regulators
- Valve on the vacuum regulator
- 3 metallic collectors for the vacuum lines
- Burners
- Chimneys
- Gate valves for vacuum and gas
- 6 valves on the vacuum lines
- 6 valves on the burners line
- 1 valve on the chimney line
- 2 traps for the chimney line
- 1 flowmeter on the vacuum line
Art. LT/SL-153000/M
Sulfur Lamp (2 places) - ASTM D1266
- S tructure made in plate painted
with epoxy products
- 2 lamps
- 3 Pyrex ® regulators
- Valve on the vacuum regulator
- 3 metallic collectors for the vacuum lines
- Burners
- Chimneys
- Gate valves for vacuum and gas
- 2 valves on the vacuum lines
- 2 valves on the burners line
- 1 valve on the chimney line
- 2 traps for the chimney line
- 1 flowmeter on the vacuum line
LT/QT-146000/M
115 Sulfur
Art. LT/SL-154000/M
Sulfur Lamp for LPG - ASTM D1266
- Made in glass
- Standard tapers
- Special burner
- Chimney
- Absorbing tube with porous baffle
- Drop filter
Art. LT/CD-150000/M
Co 2 O 2 Apparatus (part A)
- C o 2 reducer for very low pressures Sulfur Lamp
29.12.2008
distribution
- Direct connection to commercial cylinders
- Primary manometer 0 -120 kg / cm²
- Secondary manometer 0 -1 kg / cm²
- O 2 reducer low pressures distribution
-E
lectric heater for Co 2 connectable
to commercial cylinders
LT/CD-150000/M -151000/M
1° Trap
Vacuum Regulator
Vacuum Regulator
2° Trap
Gas Inlet
Vacuum Regulator
Spare Parts
LAB-101-492: wick for liquid products,
pack of 10 m
LAB-101-493: wick for aromatics,
Vacuum Pump
pack of 10 m
LAB-101-499: chimney
LAB-101-495: absobiting tube
with porous baffle
LAB-101-496: drop filter
LAB-101-498/A: flask for liquids products
LAB-101-498/B: flask for aromatics
LT/SL-152000/M
Rotameter
Accessories for LT/SL-154000/M
LAB-101-570: vessel made in aluminium
valve 1/4” gas cap. 100 ml, 70 bar
pressure certificate
LAB-101-580: vessel made in aluminium,
with two aluminium valve 1/4” gas, cap.
100 ml, 70 bar pressure certificate
LAB-101-590: vessel made in stainless
steel, stainless steel valve 1/4” gas, cap.
100 ml, 100 bar pressure certificate
LAB-101-600: vessel made in stainless
steel, with two stainless steel valve1/4”
gas, cap. 100 ml, 100 bar pressure
certificate
LAB-101-610: vessel made in stainless
steel, with two brass valves 1/4” gas,
cap. 250 ml, 100 bar pressure certificate
LAB-101-620: vessel made in stainless
steel, with two stainless steel valve 1/4”
gas, cap. 250 ml, 100 bar pressure
certificate
Chimneys
Burners
Linetronic Technologies SA
Via Francesco Borromini 20 6850 Mendrisio – Switzerland
phone +41 91 - 630 07 03 fax +41 91 - 630 07 19
e-mail: [email protected]
web: www.lin-tech.ch
Art. LT/CD-151000/M
Co 2 O 2 Apparatus (part B)
-C
entral station completes
of electric safety device
that operates in absence of Co 2
- F lowmeter for O 2 and for Co 2 with relative
valves of regulation
Accessories
LAB-2460-250: vacuum pump
LAB-101-507: drechsel bottle
Spare Parts
LAB-101-507: drechsel bottle
LT/SL-153000/M
116 Vapour Pressure
Vapour Pressure of Petroleum Products
(Reid Method)
ASTM D323
IP 69
ISO 3007
ASTM D323 - IP 69 - ISO 3007
Vapour Pressure of Petroleum Products
(Reid Method)
This test method covers procedures for
the determination of vapour pressure
of gasoline, volatile crude oil, and other
volatile petroleum products. Procedure A
is applicable to gasoline and other
petroleum products with a Vapour pressure
of less than 180 kPa (26 psi). Procedure
B may also be applicable to these other
materials, but only gasoline was included
in the interlaboratory test program to
determine the precision of this test method.
Neither procedure is applicable to liquefied
petroleum gases or fuels containing
oxygenated compounds other than methylbutyl ether (MTBE). Procedure C is for
materials with a vapour pressure of greater
than 180 kPa (26 psi) and procedure D for
aviation gasoline with a vapour pressure of
approximately 50 kPa (7 psi).
Art. LT/RC-179000-A/M
Reid Cylinder - Liquid Chamber - One Opening
ASTM D323
- Made in stainless steel
- I n one end of the liquid chamber an
opening of approximately ½” shall
be provided for coupling with the vapour
chamber
-T
he inner surface of the coupling end shall
be sloped to provide complete drainage
when inverted
-T
he other end of the chamber shall be
completely closed
Art. LT/RC-179000-B/M
Reid Cylinder - Vapour Chamber ASTM D323
- Made in stainless steel
- Lower coupling
- U pper ½” groove with a ¼” reducing cap
for pressure gauge
Art. LT/RC-179000-C/M
Reid Cylinder - Liquid Chamber - Two Opening
- Made in stainless steel
- I n one end of the liquid chamber
an opening of approximately ½” shall
be provided for coupling with the vapour
chamber
- ¼” pin valve
Spare Parts
LAB-101-792-A: gasket for chamber,
pack of 10
LAB-101-792-B: gasket for pressure
gauge, pack of 10
Power Supply
220Vac 50/60 Hz
Dimensions
60 × 60 × 80 cm
Weight
35 kg
Accessories
LT/TB-177500/M: thermostatic bath
ASTM D323 - IP 69
LAB-101-791: pressure gauge glass
at mercury, double graduated scale
up to 1, 100 mm, without mercury,
type ¼”, tube Ø 4 mm × 8 mm
LAB-101-793/1: pressure gauge
in stainless steel, Ø 100 mm, type ¼”,
scale 0-1 bar, div. 0.02
LAB-101-793/2.5: pressure gauge
in stainless steel, Ø 100 mm, type ¼”,
scale 0-2.5 bar, div. 0.05
LAB-101-793-5: pressure gauge
in stainless steel, Ø 100 mm, type ¼”,
scale 0-5 bar, div. 0.04
LAB-101-793/16: pressure gauge
in stainless steel, Ø 100 mm, type ¼”,
scale 0-16 psi, div. 0.2
LAB-101-793/25: pressure gauge
in stainless steel, Ø 100 mm, type ¼”,
scale 0-25 psi, div. 0.5
LAB-101-793/46: pressure gauge
in stainless steel, Ø 100 mm, type ¼”,
scale 0-46 psi, div. 1
LAB-101-793/60: pressure gauge
in stainless steel, Ø 100 mm, type ¼”,
scale 0-60 psi, div. 1
LAB-101-791
LT/RC-179000-A/M -B/M -C/M
117 Viscosimetry
Brookfield©
Original Viscometer
ASTM D789 - D1084 - D1638 - D1824 - D2196
- D2669 - D2849 - D2983 - D4016 - D4287
DIN 53019
Accessories
LAB-100-231: beaker - short-shaped, 600 ml
LAB-100-237: UL adapter - ideal
for measuring low viscosity materials,
small sample size 16 ml
LAB-100-232: DIN adapter - DIN 53019
low volumes (16 to 20 ml)
LAB-100-238: water bath for refrigerating
and heating (-20 to +200°C)
LAB-100-233: sall sample adapter
low volumes (2 to 16 ml)
LAB-100-239: vane spindles
for use with paste
LAB-100-234: spiral adapter, designed for
measuring the viscosity of heavy paste
LAB-100-240: disposable sample
chambers,are intended for use with
materials that are difficult to clean
LAB-100-235: jar - double wall, 600 ml
LAB-100-241: Thermosel™, for elevate
temperature testing up to 300°C, for use
with hot melts, asphalt, wax, polymers
LAB-100-236: helipath stand, designed
for viscosity consistency measurements
of gels pastes.
4
×
×
×
×
230/LVDV-I+
15
2M
18
4
×
×
×
×
230/LVDV-II+PRO
15
6M
54 Selectable
4
×
×
×
×
o
×
×
×
×
×
o
×
×
×
×
×
o
×
×
×
×
×
o
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
Customize 4 programs
18
RS 232 PC - Full computer control
2M
RS 232 PC - Data output
15
Printer output
230/LVDV-E
0-1V Chart reader
mPa*s (millipascal*seconds)
×
Temperature °F/°C
cP (centipoise)
4
Shear stress
Analog
8
Shear rate
Number Spindleas (supplied)
2M
Toeque %
Speeds
15
Digital
Maximum
230/LVT
Time to stop
Program
Features
Reaout
Viscosity Range cP
(mPa*s)
Minimum
Catalogue No.
Output
Time to torque
Data displayed
×
230/RVT
100***
8M
10
6
230/RVDV-E
100***
13M
18
6
×
×
×
×
×
230/RVDV-I+
100***
13M
18
6
×
×
×
×
230/RVDV-II+PRO
100***
40M
54 Selectable
6
×
×
×
×
×
×
230/HAT
200***
16M
10
6
230/HADV-E
200***
26M
18
6
×
×
×
×
×
230/HADV-I+
200***
26M
18
6
×
×
×
×
230/HADV-II+PRO
200***
80M
54 Selectable
6
×
×
×
×
230/HBT
800***
64M
10
6
230/HBDV-E
200***
104M
18
6
×
×
×
×
230/HBDV-I+
200***
104M
18
6
×
×
×
×
230/HBDV-II+PRO
200***
320M
54 Selectable
6
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
118 Viscosimetry
Calibrated Glass Capillary
Kinematic Viscometers
1. Cannon-Fenske
Viscometer for transparent liquids
according to ASTM - BS - IP standards with
calibration certificate at 40°C.
Item
code
Size
10003
10006
10009
10012
10015
10018
10020
10021
10024
10027
10030
10033
10036
25
50
75
100
150
200
250
300
350
400
450
500
600
Approximate
Kinematic
constant
viscosity range
centistoke/sec. centistokes
0,002
0,5 - 2
0,004
0,8 - 4
0,008
1,6 - 8
0,015
3 - 15
0,035
7 - 35
0,1
20 - 100
0,17
35 - 175
0,25
50 - 250
0,5
100 - 500
1,2
240 - 1˙200
2,5
500 - 2˙500
8
1˙600 - 8˙000
20
4000 - 20˙000
3. Ubbelohde
Viscometer for transparent liquids
according to ASTM - BS - IP standards with
calibration certificate at 40°C.
Item
code
Size
10075
10078
10081
10084
10087
10090
10093
10096
10099
10102
10105
10108
10111
10114
10117
10120
O
OC
OB
I
IC
IB
II
IIC
IIB
III
IIIC
IIIB
IV
IVC
IVB
V
1
Approximate
Kinematic
constant
viscosity range
centistoke/sec. centistokes
0,001
0,3 - 1
0,003
0,6 - 3
0,005
1-5
0,01
2 - 10
0,03
6 - 30
0,05
10 - 50
0,1
20 - 100
0,3
60 - 300
0,5
100 - 500
1
200 - 1˙000
3
600 - 3˙000
5
1˙000 - 5˙000
10
2˙000 - 10˙000
30
6˙000 - 30˙000
50
10˙000 - 50˙000
100
20˙000 - 100˙000
2
2. Cannon-Fenske
Viscometer for opaque liquids according to
ASTM - BS - IP standards with calibration
certificate at 40°C.
Item
code
Size
10039
10042
10045
10048
10051
10054
10056
10057
10060
10063
10066
10069
10072
25
50
75
100
150
200
250
300
350
400
450
500
600
Approximate
Kinematic
constant
viscosity range
centistoke/sec. centistokes
0,002
0,5 - 2
0,004
0,8 - 4
0,008
1,6 - 8
0,015
3 - 15
0,035
7 - 35
0,1
20 - 100
0,17
35 - 175
0,25
50 - 250
0,5
100 - 500
1,2
240 - 1˙200
2,5
500 - 2˙500
8
1˙600 - 8˙000
20
4˙000 - 20˙000
4. BS / IP / RF
Viscometer U-tube reverse flow for opaque
liquids according to BS-IP-ASTM standards
with calibration certificate at 40°C.
Item
code
Size
10259
10262
10265
10268
10271
10274
10277
10280
10283
10286
10289
1
2
3
4
5
6
7
8
9
10
11
3
Approximate
constant
centistoke/sec.
0,003
0,01
0,03
0,1
0,3
1
3
10
30
100
300
Kinematic
viscosity range
centistokes
0,6 - 3
2 - 10
6 - 30
20 - 100
60 - 300
200 - 1˙000
600 - 3˙000
2˙000 - 10˙000
6˙000 - 30˙000
20˙000 - 100˙000
60˙000 - 300˙000
4
119 Viscosimetry
B.R.T.A. Viscometer
IP 72 - IP 502
EN 12846 - EN 13357
Viscosity Cutback Bitumen
Measure of the viscosity by determining the
time of efflux of 50 ml of a cutback bitumen,
at 40°C, through a dedicated orifice.
Art. LT/BV-14000-1/M
Digital B.R.T.A. Viscometer IP 72 (1 Place)
-S
tructure in stainless steel with
front opened jacket
- Water bath made in stainless steel 18/8
- Lid with stainless steel heater
- Motor stirrer
- Cooling coil
- D igital thermoregulator PID with over
temperature alarm and PT100 A probe
- Hole for thermometer accomodation
Art. LT/BV-14000-2/M
Digital B.R.T.A. Viscometer IP 72 (2 places)
Art. LT/BV-14000-3/M
Digital B.R.T.A. Viscometer IP 72 (3 places)
Art. LT/BV-14000-4/M
Digital B.R.T.A. Viscometer IP 72 (4 places)
Power Supply:
- 220Vac 50/60 Hz
Dimensions:
- cm 45 × 50 × 85
Weight:
- kg 25
Accessories
LAB-100-140: calibrated brass cup
with orifice Ø 2 mm
LAB-100-141: calibrated brass cup
with orifice Ø 4 mm
LAB-100-142: calibrated brass cup
with orifice Ø 10 mm
LAB-100-143: receiver 100 ml, pack of 5
LAB-100-144: go/not go gauge Ø 4 mm
LAB-100-145: go/not go gauge Ø 10 mm
LAB-100-146: go/not go gauge Ø 2 mm
LAB-100-147/2: closing-ball-ended rod
Ø 2 mm
LAB-100-147/4:closing-ball-ended rod
Ø 4 mm
LAB-100-147/10: closing-ball-ended rod
Ø 10 mm
LAB-100-331: analog stopwatch
LAB-100-332: digital stopwatch
T-IP8C: thermometer IP 8C
Spare Parts
LAB-100-141: calibrated brass cup
with orifice Ø 4 mm
LAB-100-142: calibrated brass cup
with orifice Ø 10 mm
LAB-100-143: receiver, pack of 5
LAB-100-144: go/not go gauge Ø 4 mm
LAB-100-145: go/not go gauge Ø 10 mm
LAB-100-147: closing-ball-ended rod
LAB-140-001: PT100 probe
LAB-110-012: heater
LAB-160-014: digital thermoregulator
LAB-150-015: static relay
LT/BV-14000-2/M
LT/BV-14000-1/M
LT/BV-14000-4/M
120 Viscosimetry
Engler Viscometer
ASTM D1665
DIN 51560
IP 212
Engler Specific Viscosity of Tar Products
Covers the determination of specific
viscosity of tars and their fluid products. It
does not determine absolute viscosity but is
an empirical flow test.
Art. LT/EV -26000/M
Conventional Engler Viscometer ASTM D1665
- B rass test cup with stainless steel levelcontrol of capillary flow outcropping
- L id with Teflon tipped rod for closing
the capillary hole
- Hand stirrer
-B
ath with stainless steel heater regulated
by table electronic regulator
Art. LT/EV -27000-1/M
Digital Engler Viscometer ASTM D1665
(1 place)
- Calibrated brass cup for oils with stainless
steel orifice
- Teflon ® tipped closing rod
- 18/8 stainless steel water bath
- Lid with stirrer motor
- Cooling coil
- Stainless steel heater
- D igital thermoregulator with overtemperature alarm
and PT 100A probe
- Insulated double wall
- Front opened jacket
Art. LT/EV -27000-2/M
Digital Engler Viscometer (2 place)
Power Supply
220Vac 50/60 Hz
Dimensions
cm 50 × 50 × 70
Weight
kg 25
Accessories
LAB-100-262: glass flask - 200+40 ml,
calibrated at 20°C, pack of 3
LAB-100-263: glass flask - 100+100 ml,
calibrated at 20°C, pack of 3
LAB-100-264: glass flask - 200 ml,
calibrated at 20°C, pack of 3
LAB-100-265: glass flask - 50 ml,
calibrated at 20°C, pack of 3
LAB-100-103: Kohlrausch receiving flask
50 ml, pack of 3
LAB-100-267: Kohlrausch receiving flask
200 ml, pack of 3
LAB-100-331: analog stopwatch
LAB-100-332: digital stopwatch
T-10/110: thermometer 10° +110°C,
div. 0.5°
T-AS23C: thermometer ASTM 23C
T-AS24C: thermometer ASTM 24C
T-AS25C: thermometer ASTM 25C
T-IP76C: thermometer IP 76C
LT/EV -27000-1/M
Spare Parts
LAB-100-262: glass flask - 200+40 ml,
calibrated at 20°C, pack of 3
LAB-100-263: glass flask - 200 ml,
calibrated at 20°C, pack of 3
LAB-100-264: glass flask - 50 ml,
calibrated at 20°C, pack of 3
LAB-100-265: glass flask - 50 ml,
calibrated at 20°C, pack of 3
LAB-100-103: Kohlrausch receiving flask
50 ml, pack of 3
LAB-100-267: Kohlrausch receiving flask
200 ml, pack of 3
LAB-100-270: cup
LAB-100-271: hook
LAB-110-003: heater (for 260)
LAB-150-110: electronic regulator
(for art. LT/EV-26000/M)
LAB-140-001: PT100 probe
LAB-110-012: heater
LAB- 160-014: digital thermoregulator
LAB-150-015: static relay
121 Viscosimetry
Ford Viscometer
Höppler Viscometer
ASTM D1200 - ASTM D5125
DIN 53211
ISO 2431
DIN 53015
ASTM D1200 Viscosity by Ford cup
Determination of the viscosity of Newtonian
or near Newtonian paints, varnishes,
lacquers and related liquid material.
Art. LT/FV-20000-/M
Ford Viscometer, anodized aluminium cup
with orifice no. 1 - 2 - 3 - 4 - 5
ASTM D1200
-
LT/FV-20000-1/M
LT/FV-20000-1/M
LT/FV-20000-1/M
LT/FV-20000-1/M
LT/FV-20000-1/M
cup
cup
cup
cup
cup
with
with
with
with
with
orifice
orifice
orifice
orifice
orifice
no.
no.
no.
no.
no.
1
2
3
4
5
Art. LT/FV-21000/M
Ford Viscometer, anodized aluminium cup
with orifice no. - 2 - 3 - 4 - 5 - 6 - 7 - 8
DIN 53211
-
LT/FV-21000-1/M
LT/FV-21000-1/M
LT/FV-21000-1/M
LT/FV-21000-1/M
LT/FV-21000-1/M
LT/FV-21000-1/M
LT/FV-21000-1/M
cup
cup
cup
cup
cup
cup
cup
with
with
with
with
with
with
with
orifice
orifice
orifice
orifice
orifice
orifice
orifice
no.
no.
no.
no.
no.
no.
no.
2
3
4
5
6
7
8
Art. LT/FV-22000/M
Ford Viscometer, anodized aluminium cup
with orifice no. - 2 - 3 - 4 - 5 - 6 - 8
ASTM D5125 - ISO 2431
- LT/FV-22000-1/M cup with orifice no. 2
- LT/FV-22000-1/M cup with orifice no. 3
- LT/FV-22000-1/M cup with orifice no. 4
- LT/FV-22000-1/M cup with orifice no. 5
- LT/FV-22000-1/M cup with orifice no. 6
- LT/FV-22000-1/M cup with orifice no. 8
Art. LT/HV-32000/M
High Precision Höppler Viscometer
- Suitable for viscosity 0.6 a 250.000 mPa*s
- M ounted on support with levelling screws
and bubble level
- F itted with stop pin which allows the
viscometer to reverse
- D elivery tube gauged, with two maximum
level notches and an intermediate-level one
- E quipped with 6 gauged balls
of variable diameter
- P yrex glass jacket for thermostatic bath
with covers
- Neoprene gaskets
- C onnections for the circulation
of the liquid from the thermostatic bath
- Certificate at 20°C
Accessories
LT/TB-72200/M: transfer bath
LAB-100-331: analog stopwatch
LAB-100-332: digital stopwatch
T-0332: thermometer 19° +21°C, div. 0.02°
T-0333: thermometer -1° +26°C, div. 0.1°
T-0334: thermometer 24° +51°C, div. 0.1°
T-0335: thermometer 49° +76°C, div. 0.1°
T-0336: thermometer 74 +101°C, div.0.1°
Spare Parts
LAB-100-321:
LAB-100-322:
LAB-100-324:
LAB-110-261:
LAB-150-110:
Art. LT/HV-33000/M
High Precision Heated Höppler Viscometer
- Suitable for viscosity 0.6 a 250.000 mPa*s
- S tainless steel heater regulated by table
electronic regulator
- M ounted on support with levelling screws
and bubble level
- F itted with stop pin which allows
the viscometer to reverse
- D elivery tube gauged, with two maximum
level notches and an intermediate-level one
- E quipped with 6 gauged balls
of variable diameter
- P yrex glass jacket for thermostatic bath
with covers
- Neoprene gaskets
- C onnections for the circulation
of the liquid from the thermostatic bath
- Certificate at 20°C
Dimensions
cm 25 × 25 × 40
Weight
kg 2
Accessories
LAB-100-204: Ford support
LAB-100-331: analog stopwatch
LAB-100-332: digital stopwatch
LT/HV-32000/M
LT/FV-20000-/M
gauged tube
6 gauged balls
gasket, pack of 1
heater
electronic regulator
122 Viscosimetry
Redwood Viscometer
IP 70 (obs.)
Redwood Viscosity
No. 1 Determines viscosity of oils not
exceeding 2000 seconds at the test
temperature.
No. 2 Determines viscosity of oils exceeding
2000 seconds at the test temperature.
Art. LT/RV-10000/M
Redwood no. 1 Viscometer IP 70 (obs.)
- Water bath made in stainless steel 18/8,
insulated double wall, front opened jacket
-L
id with stainless steel heater regulated by
table electronic regulator
- Calibrated brass oil cup with orifice no. 1
- Fitted with closing-ball-ended
Art. LT/RV-10200/M
Redwood no. 2 Viscometer IP 70 (obs.)
-W
ater bath made in stainless steel 18/8,
insulated double wall, front opened jacket
-L
id with stainless steel heater regulated by
table electronic regulator
- Calibrated brass oil cup with orifice no. 2
- Fitted with closing-ball-ended
Art. LT/RV-12000/M
Digital Redwood no. 1 Viscometer IP 70 (obs.)
- Water bath made in stainless steel 18/8,
insulated double wall, front opened jacket
- Lid with stainless steel heater
- Stirrer
- Cooling coil
- D igital thermoregulator PID with over
temperature alarm and PT100 A probe
- Calibrated brass oil cup with orifice no. 1
- Fitted with closing-ball-ended
Art. LT/RV-12200/M
Digital Redwood no. 2 Viscometer IP 70 (obs.)
- Water bath made in stainless steel 18/8,
insulated double wall, front opened jacket
- Lid with stainless steel heater
- Stirrer
- Cooling coil
- D igital thermoregulator PID with
alarm and PT100 A probe
- Calibrated brass oil cup with orifice no. 2
- Fitted with closing-ball-ended
Art. LT/RV-12000-2/M
Digital Redwood no. 1 Viscometer
– 2 places
Art. LT/RV-12200-2/M
Digital Redwood no. 2 Viscometer
– 2 places
Art. LT/RV-12000-3/M
Digital Redwood no. 1 Viscometer
– 3 places
Power Supply
220Vac 50/60 Hz
Dimensions
cm 50 × 50 × 70
Weight
kg 25
Accessories
LAB-100-103: Kohlraush receiving flask
50 ml, pack of 3
LAB-100-331: analog stopwatch
LAB-100-332: digital stopwatch
T-IP8C: thermometer IP 8C
T-IP9C: thermometer IP 9C
T-IP10C: thermometer IP 10C
Spare Parts
LAB-100-103: Kohlraush receiving flask
50 ml, pack of 3
LAB-100-105: gasket, pack of 20
LAB-100-101: calibrated brass oil cup
with orifice no. 1
LAB-100-102: calibrated brass oil cup
with orifice no. 2
LAB-100-104: closing-ball-ended rod
LAB-150-110: electronic regular (for 100)
LAB-140-001: PT100 probe
LAB-110-012: heather
LAB-160-011: digital thermoregulator
(for Art. LT/RV-12000 and LT/RV-12200)
LAB-150-015: static relay
LAB-150-009: safety thermostat
Art. LT/RV-12200-3/M
Digital Redwood no. 2 Viscometer
– 3 places
LT/RV-12200-2/M
LT/RV-12000/M
123 Viscosimetry
Saybolt Viscometer
ASTM D88 - ASTM E102
FTM 791-0304
JIS K 2207
ASTM D88 Saybolt Viscosity
Covers the measurement of viscosities
of petroleum products at temperature
between 21° and 99°C (70° ÷ 210°F)
ASTM E 102 Saybolt Viscosity
Covers the measurement of viscosities
of petroleum products at temperature
between 121° and 232°C (250° ÷ 450°F)
Art. LT/SV-18000-1/M
Digital Saybolt Viscometer
ASTM D88, ASTM E102
-W
ater bath made in stainless steel 18/8,
insulated double wall, front opened jacket
-D
igital thermoregulator PID with over
temperature alarm and PT100 A probe
- Lid with stainless steel heater
- Stirrer
- Cooling coil
-C
alibrated brass oil cup suitable for
stainless steel flowing orifice polished
and calibrated: universal with diameter
1.76 mm (Art. LAB-100-165); furol with
diameter 3.15 mm (Art.LAB-100-166)
Art. LT/SV-18000-2/M
Digital Saybolt Viscometer ASTM D88,
ASTM E 102 – 2 places
Art. LT/SV-18000-3/M
Digital Saybolt Viscometer ASTM D88,
ASTM E 102 – 3 places
Art. LT/SV-18000-4/M
Digital Saybolt Viscometer ASTM D88,
ASTM E 102 – 4 places
Power Supply
220Vac 50/60 Hz
Dimensions
cm 50 × 50 × 70
Weight
kg 25
LT/SV-18000-3/M
Accessories
LAB-100-161: filter funnel
with stainless steel wire mesh
LAB-100-162: Saybolt flask 60 ml
LAB-100-163: thermometer support
LAB-100-164: withdrawal tube
LAB-100-167: movement ring ASTM E 102
LAB-100-168: suction pipette
LAB-100-331: analog stopwatch
LAB-100-332: digital stopwatch
LAB-100-371: silicone oil, 25 litres
T-AS17C: thermometer ASTM 17C
T-AS17F: thermometer ASTM 17F
T-AS18C: thermometer ASTM 18C
T-AS18F: thermometer ASTM 18F
T-AS19C: thermometer ASTM 19C
T-AS19F: thermometer ASTM 19F
T-AS20C: thermometer ASTM 20C
T-AS20F: thermometer ASTM 20F
T-AS21C: thermometer ASTM 21C
T-AS21F: thermometer ASTM 21F
T-AS22C: thermometer ASTM 22C
T-AS22F: thermometer ASTM 22F
T-AS77F: thermometer ASTM 77F
T-AS78F: thermometer ASTM 78F
T-AS79F: thermometer ASTM 79F
T-AS80F: thermometer ASTM 80F
T-AS81F: thermometer ASTM 81F
T-AS108F: thermometer ASTM 108F
T-AS109F: thermometer ASTM 109F
Spare Parts
LAB-100-161: filter funnel
with stainless steel wire mesh
LAB-100-162: Saybolt flask
LAB-100-164: withdrawal tube
LAB-100-165: universal orifice
LAB-100-166: furol orifice
LAB-100-168: suction pipette
LAB-100-172: calibrated brass oil cup
without orifice
LAB-100-371: silicone oil 25 litres
LAB-140-001/A: PT100 probe
LAB-11-0012: heater
LAB-160-012: digital thermoregulator
LAB-150-015: static relay
124 Viscosimetry
Viscometer Bath
ASTM D445 - ASTM D446 - ASTM D2170
EN 12595
IP 71-1 - IP 71-2 - IP 319
ISO 3104 - ISO 3105
Art. LT/VB-37000/M
Digital Viscometer Bath up to 120°C
- U sed for measuring oils viscosity by
Cannon-Fenske, Ubbelohde and similar
capillary
- Working temperature from ambient
to 120°C
- Borosilicate tank
- Cover with 5 holes 50.8 mm
- Stainless steel control box on the cover
-D
igital thermoregulator PID with over
temperature alarm and PT100A probe
-C
ooling coil for improved control near
to ambient temperature
- Stainless steel heater
- Motor stirrer
- Stand-by stainless steel covers
- Protection Lexan jacket
Power Supply:
220Vac 50/60 Hz
Dimensions:
Ø 50 cm × h 60 cm
Weight:
kg 12
Art. LT/VB-39000/M
5 Places Digital Viscometer Bath
ASTM D445 / IP 71
-U
sed for measuring oils viscosity
by Cannon-Fenske, Ubbelohde, U-Tube
and similar capillary
- Structure in stainless steel
- Working temperature from ambient to 150°C
- Display resolution 0.01°
- 3 setpoint storage
- Adjustable flow/rate pump capacity
- A djustable high and low temperature
cut-out
LT/VB-37000/M
-
Low level liquid alarm
Cooling coil
Cover with 5 holes of approx 51 mm
Stand-by stainless steel covers
Tank capacity approx. 20 liters
Power Supply:
220Vac 50/60 Hz
Dimensions:
cm 45 × 60 × 60
Weight:
kg 25
Accessories
LAB-100-371: silicone oil can of 25 litres
LAB-100-372: viscosity charts ASTM D341,
D2270, pack of 50
LAB-100-373/T: viscometer holders
for Cannon-Fenske, for transparent
liquids, pack of 5
LAB-100-373/O: viscometer holders
for Cannon-Fenske, for opaque liquids,
pack of 5
LAB-100-374: viscometer holders
for Ubbelohde, pack of 5
LAB-100-375: syringe metallic
LAB-100-331: analog stopwatch
LAB-100-332: digital stopwatch
T-AS44C: thermometer ASTM 44C IP 29C
T-AS44F: thermometer ASTM 44F IP 29F
T-AS45C: thermometer ASTM 45C IP 30C
T-AS45F: thermometer ASTM 45F IP 30F
T-AS118C: thermometer ASTM 118C
T-AS118F: thermometer ASTM 118F
T-AS28C: thermometer ASTM 28C IP 31C
T-AS28F: thermometer ASTM 28F
T-AS120C: thermometer ASTM 120C IP 92C
T-AS46C: thermometer ASTM 46C IP 66C
T-AS46F: thermometer ASTM 46F IP 66F
T-AS29C: thermometer ASTM 29C IP 34C
T-AS29F: thermometer ASTM 29F
T-AS47C: thermometer ASTM 47C IP 35C
T-AS47F: thermometer ASTM 47F IP 35F
T-AS48C: thermometer ASTM 48C IP 90C
T-AS48F: thermometer ASTM 48F IP 90F
T-AS129C: thermometer ASTM 129C IP 36C
T-AS129F: thermometer ASTM 129F IP 36F
T-AS121C: thermometer ASTM 121C IP 32C
T-AS110C: thermometer ASTM 110C IP 93C
T-AS110F: thermometer ASTM 110F
T-AS64C: thermometer ASTM 64C
T-AS64F: thermometer ASTM 64F
T-AS65C: thermometer ASTM 65C
T-AS65F: thermometer ASTM 65F
T-AS66C: thermometer ASTM 66C
T-AS66F: thermometer ASTM 66F
T-AS67C: thermometer ASTM 67C
T-AS67F: thermometer ASTM 67F
T-AS68C: thermometer ASTM 68C
T-AS68F: thermometer ASTM 68F
T-AS69C: thermometer ASTM 69C
T-AS69F: thermometer ASTM 69F
T-AS70C: thermometer ASTM 70C
T-AS70F: thermometer ASTM 70F
Spare Parts
LAB-100-371: silicone oil can of 25 litres
LAB-100-372: viscosity charts ASTM D34,
D2270, pack of 50
LAB-100-373/T: viscometer holders
for Cannon-Fenske, for transparent
liquids, pack of 5
LAB-100-373/O: viscometer holders
for Cannon-Fenske, for opaque liquids,
pack of 5
LAB-100-374: viscometer holders
for Ubbelohde, pack of 5
LAB-150-018: light
(for art. LT/VB-39000/M)
LAB-180-001: jar (for art. LT/VB-37000/M)
LAB-180-401: protection Lexan jacket
(for 37000/M)
LAB-140-002: PT100 probe, L=200
LAB-110-012: heater
(for 37000/M)
LAB-110-016: heater
LAB-160-014: digital thermoregulator
(for 37000/M)
LAB-160-016: digital thermoregulator
(for 39000/M)
LAB-150-015: static relay
LT/VB-39000/M
125 Viscosimetry
Low Temperatures
Viscometer Bath
ASTM D2532 - ASTM D2983
ASTM D2532 - Viscosity change after
standing at low temperature of aircraft turbine
lubricants
Covers the determination of the kinematic
viscosity of aircraft turbine lubricants
at low temperature and the percent change
of viscosity after a 3 and a 72h standing
period at low temperature.
Art. LT/VB-46000/M - Digital viscometer bath
for low temperatures 15°C … -56°C
ASTM D2532
-T
wo concentric tanks with a cooling coil
between them
-C
over with 3 holes for immersion of
Cannon-Fenske, Ubbelohde and other
capillary tubes
-L
ight and resistant structure fitted with
front window and back light
-C
ooling is controlled by a motor
compressor with ecological gas
-H
eating is provided by an electric
immersion stainless steel heater for the
exact thermostatic value of internal liquid
-A
utomatic defrosting device and digital
thermoregulator
-P
ID with over temperature alarm
and PT100A probe
- Motor stirrer
Viscometer Tube
Cleaner and Dryer
Art. LT/VB-47000/M - Digital viscometer bath
for low temperatures up to -40°C - ASTM
D2983
- Bath with 6 wells in aluminium block
- Floor model
-D
igital thermoregulator PID with over
temperature alarm PT100A probe
Accessories
Brookfiel Viscometer
LAB-100-472: test cells - pack of 12
LAB-100-473: cells cover
LAB-100-474: test stoppers
T-AS122C: thermometer
ASTM 122C - IP 94C
T-AS123C: thermometer
ASTM 123C - IP 95C
T-AS124C: thermometer
ASTM 124C - IP 96C
T-AS125C: thermometer
ASTM 125C - IP 97C
Spare parts
LAB-100-472:
LAB-100-473:
LAB-100-474:
LAB-140-006:
LAB-110-012:
LAB-160-015:
LAB-150-015:
Accessories
LAB-100-461/T: viscometer holders
for Cannon-Fenske, for transparent
liquids, pack of 3
LAB-100-461/O: viscometer holders
for Cannon-Fenske, for opaque liquids,
pack of 3
LAB-100-462: viscometer holders
for Ubbelohde, pack of 3
T-AS72C: thermometer ASTM 72C - IP 67C
T-AS72F: thermometer ASTM 72F - IP 67F
T-AS73C: thermometer ASTM 73C - IP 68C
T-AS73F: thermometer ASTM 73F - IP 68F
T-AS74C: thermometer ASTM 74C - IP 69C
Spare Parts
LAB-150-024:
LAB-180-001:
LAB-180-002:
LAB-140-002:
LAB-110-012:
LAB-160-016:
LAB-150-015:
Art. LT/VC-48100/M
Viscometer Tube Cleaner and Dryer
- S olvent cleaning-unit for washing and
drying capillary-glass-tube viscometers
- Washes and dries up to 6 capillary tubes
at a time
- S tainless steel case with 6 independent
regulation valves fitted with holding-down
spring
- Air filters
- P ressure regulator and pressure gauge
to be feed from one external air source
- 7 .5 litres capacity internal solvent tank
with level indicator
- P rotection cover in stainless steel
and window check
Dimensions
cm 50 × 80 × 80
Weight
kg 30
test cells - pack of 12
cells cover
test stoppers
PT100 probe
heater
digital thermoregulator
static relay
LT/ 48100/M
light
jar
jar
PT100 probe
heater
digital thermoregulator
static relay
LT/VB-46000/M
126 Water
Water in Crude Oil
by Distillation
Dean and Stark
ASTM D4006
IP 358
ISO 9029
ASTM D95 - ASTM D4006
IP 74 - IP 358
ISO 9029
Water in Crude Oil by Distillation
This test method covers the determination
of water in crude oil by distillation
ASTM D95, IP 74 - Water in Petroleum
Products and Bituminous Materials by
Distillation
This test method covers the determination
of water in the range from 0 to 25 %
volume in petroleum products, tars,
and other bituminous materials by the
distillation method.
Art. LT/WD-110000/M
Water in Crude Oil Distillation Apparatus ASTM D4006
- Mantle heater with steel rod and clamp
- 1000 ml flask
- Condenser
- Graduated 5 ml receiver type E
- Tapered joints 24/4
Art. LT/DS-109000/M
Dean and Stark Apparatus ASTM D95
- Mantle heater with steel rod and clamp
- 500 ml flask
- Condenser
- Graduated 10 ml receiver type A
- Tapered joints 24/40
Accessories
LT/TB-72200/M: transfer bath
Spare Parts
LAB-101-101: flask 1000 ml, pack of 3
LAB-101-092: Liebig condenser 400 mm,
tapered joint 4/40, pack of 3
LAB-101-093/5: receiver type E 5 ml
Accessories
LAB-101-093/5: receiver type E 5 ml
LAB-101-093/10E: receiver type E 10 ml
LAB-101-093/25B: receiver type B
without siphon 25 ml
LAB-101-093/25C:receiver type C
with siphon 25 ml
LAB-101-093/25D:receiver type D
with valve 25 ml
LAB-101-093/2: receiver type F 2 ml
Water Reaction
of Aviation Fuels
Spare Parts
LAB-101-091: flask 500 ml,
tapered joint 24/40, pack of 3
LAB-101-092: Liebig condenser 400 mm,
tapered joint 24/40, pack of 3
LAB-101-093/10A: receiver type A
with siphon 10 ml, tapered joint 24/40
LAB-101-093/5: receiver type E 5 ml
LAB-101-093/10E: receiver type E 10 ml
LAB-101-093/25B: receiver type B
without siphon 25 ml
LAB-101-093/25C: receiver type C
with siphon 25 ml
LAB-101-093/25D: receiver type D
with valve 25 ml
LAB-101-093/2: receiver type F 2 ml
ASTM D1094
DIN 12685 (obs.)
ISO 4788
ASTM D1094 - Water Reaction of Aviation
Fuels
This test method covers the determination
of the presence of water miscible
components in aviation gasoline and
turbine fuels, and the effect of these
components on volume change and
on the fuel-water.
Art. LT/WR-253700/M
Water Reaction Interface of Aviation Fuels ASTM D1 094
-C
ylinder in glass from 100 ml, div. 1 ml
with cork of closing
- S haker to horizontal movement with
varying speed from 60 to 350 rpm
- Move of the axle 20 mm
- Timer 0-120 min
- P lain of support with support
for adjustable bars
of fixing in height and width
LT/DS-109000/M
127 Water
Dew Point
ASTM D1142
Water Vapour Content of Gaseous Fuels
by Measurement of Dew Point Temperature
This test method covers the determination
of the water vapour content of gaseous
fuels by measurement of the dew-point
temperature and the calculation there from
of the water vapour content.
Art. LT/DP-172000/M
Laboratory Dew Point - ASTM 1142
-P
ortable model with 63 mm Ø,
pressure gauge scale 0-160 bar
- Cooling chamber with 1/4” gas valve
- Stainless steel block with ¼” gas valves
- Plexiglass ® window
- Bench support
Accessories
T-AS33C: thermometer ASTM 33 C
T-AS33F: thermometer ASTM 33 F
Spare Parts
LAB-101-730/30: o-ring 3062 pack of 10
LAB-101-730/20: o-ring 2021 pack of 10
LAB-101-730/PT: gasket PTFE, pack of 10
LAB-101-731: body in branch
with stainless steel mirror
LAB-101-735: external mirror
LAB-101-736: window
LAB-101-737: stainless steel mirror
LAB-101-738: cooling chamber
LAB-101-739: pin valve 1/4” gas
LAB-101-722: pressure gauge
LT/DP-173000/M
Art. LT/DP-173000/M
Portable Dew Point ASTM D1142
- P ortable model with 63 mm Ø,
pressure gauge scale 0-160 bar
- Cooling chamber with 1/4” gas valve
- Stainless steel block with pin valve ¼” gas
- Plexiglass ® window
Accessories
LAB-101-732: case
LAB-101-733: junction hy-flex for CO 2
LAB-101-734: tripod support
T-AS33C: thermometer ASTM 33 C
T-AS33F: thermometer ASTM 33 F
Spare Parts
LAB-101-730/30: o-ring 3062 pack of 10
LAB-101-730/20: o-ring 2021 pack of 10
LAB-101-730/PT: gasket PTFE, pack of 10
LAB-101-731: body in branch
with stainless steel mirror
LAB-101-736: window
LAB-101-737: stainless steel mirror
LAB-101-738: cooling chamber
LAB-101-739: pin valve 1/4” gas
LAB-101-722: pressure gauge
LT/DP-172000/M
128 Wax
Drop Melting Point
Melting Point
Oil and Solvent in Wax
ASTM D127
ASTM D87
IP 55
Melting Point of Petroleum Wax
(Cooling Curve)
This test method covers the determination
of the melting point (cooling curve) of
petroleum wax. It is unsuitable
for waxes of the petrolatum group,
microcrystalline waxes, or blends of such
waxes with paraffin wax or scale wax.
ASTM D721 - ASTM D3235
DIN 51571
IP 158
IP 133
Drop Melting Point of Petroleum Wax Including
Petrolatum
This test method covers the determination
of the drop melting point of petroleum wax.
It is used primarily for petrolatums and other
microcrystalline wax.
Art. LT/DM-210000/M
Drop Melting Point ASTM D127
-T
hermostatic bath fitted with a test tube
Ø 25 × 150 mm
- Thermometer ASTM 61C
Accessories
T-AS61F: thermometer ASTM 61F
T-AS34C: thermometer ASTM 34C
T-AS34F: thermometer ASTM 34F
Spare Parts
LAB-102-101: test tube, pack of 10
LAB-102-102: jar
Art. LT/WM-209000/M
Wax Melting Point ASTM D87
- Air bath with brass well
- Glass test tube Ø 25 × 100 mm calibrated
to 50.8 mm
- Cork stoppers
- Water bath
Accessories
LAB-100-331: analog stopwatch
LAB-100-332: digital stopwatch
T-AS14C: thermometer ASTM 14C - IP 17C
T-AS14F: thermometer ASTM 14F - IP 17F
T-AS34C: thermometer ASTM 34C - IP 21C
T-AS34F: thermometer ASTM 34F
Spare Parts
LAB-102-091: calibrated dish, pack of 10
LAB-102-092: cork
ASTM D721 - DIN 51571 - IP 158
Oil Content of Petroleum Waxes
This test method covers the determination
in petroleum waxes having a congealing
point of 30°C (86°F) or higher as determined
in accordance with Test Method D938, and
containing not more than 15 % of oil.
ASTM D3235
Solvent Extractables in Petroleum Waxes
This test method covers the determination
of solvent extractable in petroleum waxes.
Art. LT/WA-218000/M
Oil and Solvent in Wax Apparatus
ASTM D721
- Three filters with a Ø 10 mm
- Thin case
- Porosity 10-15 micron
- Test tube Ø 25 × 170 mm
- Locking hooks
- Tapered standard joints
- Three place thermostatic bath up to -40°C
- Internal stainless steel tank
- Four places hot air evaporator
- Double holed bottom
- External air inlet
- Heater
- Door
- C ollector located on the top fitted with
four blowing nozzles adjustable for height
- Four calibrated beakers
Accessories
LAB-102-182: regulator with cylinder 250
ml capacity, T-tube with rubber cap
T-AS71C: thermometer ASTM 71C - IP 72C
T-AS71F: thermometer ASTM 71F - IP 72F
Spare Parts
LAB-102-182: regulator with cylinder 250
ml capacity, T-tube with rubber cap
LAB-102-183: 10/15 micron tube
LAB-102-184: test tube Ø 25 × 170 mm
LAB-102-185: tared distillation flask 15 ml
LAB-102-186: collector
LT/DM-210000/M
LT/WM-209000/M
129 Additional Instruments
Cryostat and Low Temperature
Thermostatic Bath and Circulator
Art. LT/CB-40800-M/30
Cryostat +30°C … -30°C
Circulating bath for refrigerating liquid (methyl
alcohol)
for low temperatures.
-S
ingle stage gas compressor CFC free for
temperatures up to -35°C
- Tank capacity: 6 litres
- Floor model mounted on wheels
- Weight: approx. 60 kg
- I nlet and outlet connection for tube with
internal diameter of 4 mm
- Distance of connection to the first
analyser: 1.5 m
- Distance of connection between two
analysers: 0.5 m
Art. LT/CB-90000-M/80
Cryostat +30°C … -80°C
Circulating bath for refrigerating liquid (methyl
alcohol)
for low temperatures.
- D ouble stage gas compressor CFC free
for temperatures up to -80°C
- Tank capacity: 6 litres
- Floor model mounted on wheels
- Weight: approx. 90 kg
- I nlet and outlet connection for tube
with internal diameter of 4 mm
- Distance of connection to the first
analyser: 1.5 m
- Distance of connection between two
analysers: 0.5 m
The cryostat is equipped with:
- Digital thermoregulator for temperature
adjustment
- PT100 sensor for temperature reading of
the bath liquid
-P
rotection for over-temperatures
(liquid temp. max 50 °C inside the bath)
- Safety pressure controller for the
compressor
- Circulating pump with on/off switch
- Main switch on/off
- Liquid purge valve
The cryostat is equipped with:
- Digital thermoregulator for temperature
adjustment
- PT100 sensor for temperature reading of
the bath liquid
- P rotection for over-temperatures
(liquid temp. max 50 °C inside the bath)
- S afety pressure controller for the first
stage compressor
- T hermostat regulator for activation of the
second
stage compressor
- S afety pressure controller for the second
stage compressor
- Circulating pump with on/off switch
- Main switch on/off
- Liquid purge valve
Heating Device Unit
Art. LT/HD-1280/S6
Heating Device Unit - 600W
- F urnace made in plate painted with antiacid
epoxy products
- C ircular heating plate controlled
by an electronic regulator
- Double fuse protection
- Plate power 600W
Art. LT/HD-1280/A6
Heating Device Unit - 600W
- F urnace made in plate painted
with anti-acid epoxy products
- C ircular heating plate controlled
by an electronic regulator
- F itted with rod and pliers supporting a
motor stirrer
(not included)
- Double fuse protection
- Plate power 600W
Drying Oven and
Natural Ventilation Oven
Art. LT/DO-248000/F Drying Oven
- Forced ventilation
- H igh technology heater suitable for all
thermostatic uses where a high level of
precision is needed
- Made in stainless steel
- T hermic insulation provided
by mineral natural fibre
- Temperature controlled
by a digital thermoregulator
- Temperature range from ambient to 250°C
with a ± 2%°C precision range
- I n order to improve the protection, this
item is provided with a safety thermostat
with visual warning and manual start-up
- Internal steel shelves adjustable for height
- Breather chimney with manual flow-setting
- H eating elements touch the pre-chamber
and not the internal chamber in order to
give an evenly spread heating
Art. LT/DO-248000/N
Natural Ventilation Oven
- Natural ventilation
- H igh technology heater suitable for all
thermostatic uses where a high level of
precision is needed
- Made in stainless steel
- T hermic insulation provided by mineral
natural fibre
- Temperature controlled by a digital
thermoregulator
- Temperature range from ambient to 250°C
with a ± 2%°C precision range
- I n order to improve the protection, this
item is provided with a safety thermostat
with visual warning and manual start-up
- Internal steel shelves adjustable for height
- Breather chimney with manual flow-setting
- H eating elements touch the pre-chamber
and
not the internal chamber in order to give
an evenly spread heating
LT/CB-40800-M/30
130 Additional Instruments
Thermostatic Bath
Transfer Bath
Water Bath
ASTM D323 - D972 - D1267 - D1657 - D1838
IP 12 - IP 69 - IP 161 - IP 410
Art. LT/TB-72200/M
Transfer Bath
- Water bath to keep samples at constant
temperature
- Working temperature up to 60°C
with decimal resolution
- D igital thermoregulator PID with overtemperature
alarm and probe PT100A
- Stainless steel heater
- Coiling coil
- M otor pump allowing
the liquid circulation
Art. LT/WB-123000/M
- Made in stainless steel
- C ontrolled by digital thermoregulator
with over-temperature alarm and probe
PT100A
Art. LT/TB-177000/M
Thermostatic Bath - ASTM D1267 - D1657
- D1838
- IP 161 - IP 410
- Completely made in 18/8 stainless steel
- Double bottom
- T hermostating digitally thermoregulated
PID with over-temperature alarm
and probe PT100A
- Stainless steel heater
- Cooling coil
- Motor stirrer
- S upport which allows the immersion
of 3 cylinders RVP
- 3 corrosion cylinders
- 2 Hydrometers
Art. LT/TB-177500/M
Thermostatic Bath - ASTM D323 - IP 69
- Completely made in 18/8 stainless steel
- Double bottom
-T
hermostating digitally thermoregulated
PID with over-temperature alarm
and probe PT100A
- Stainless steel heater
- Cooling coil
- Motor stirrer
-S
upport which allows the immersion
of 3 Reid pressure cylinders
Art. LT/TB-205100/M
Thermostatic Bath - ASTM D972 - IP 12
- Completely made in 18/8 stainless steel
- Double bottom
-T
hermostating digitally thermoregulated
PID with over-temperature alarm
and probe PT100A which controls two
stainless steel heater
- Cooling coil
- Motor stirrer
- For immersion 2 evaporation cells
- Complete with 2 flowmeters
LT/TB-177500/M
LT/TB-72200/M
131 Thermometers
Division
mm
Immersion
mm
Lenght
mm
ASTM
Division
mm
Immersion
mm
Lenght
mm
ASTM Thermometers
1C
-
Partial immersion
-20 +150°C
1
76
322
43C
65C
Kinematic Viscosity
51.6 -34°C
0.1
Total
420
1F
-
Partial immersion
0 +302°F
2
76
322
43F
65F
Kinematic Viscosity
-61 -29°F
0.2
Total
420
2C
62C
Partial immersion
-5 +300°C
1
76
390
44C
29C
Kinematic Viscosity
18.6 +21.4°C
0.05
Total
305
2F
62F
Partial immersion
20 +580°F
2
76
390
44F
29F
Kinematic Viscosity
66.5 +71.5°F
0.1
Total
305
3C
73C
Partial immersion
-5 +400°C
1
76
415
45C
30C
Kinematic Viscosity
23.6 +26.4°C
0.05
Total
305
3F
73F
Partial immersion
20 +760°F
2
76
415
45F
30F
Kinematic Viscosity
74.5 +79.5°F
0.1
Total
305
5C
1C
Cloud and Pour
-38 +50°C
1
108
230
46C
66C
Kinematic Viscosity
48.6 +51.4°C
0.05
Total
305
5F
1F
Cloud and Pour
-36 +120°F
2
108
230
46F
66F
Kinematic Viscosity
119.5 +124.5°
0.1
Total
305
6C
2C
Low Cloud and Pour
-80 +20°C
1
76
230
47C
35C
Kinematic Viscosity
58.6 +61.4°C
0.05
Total
305
6F
2F
Low Cloud and Pour
-112 +70°F
2
76
230
47F
35F
Kinematic Viscosity
137.5 +142.5°
0.1
Total
305
7C
5C
Low Distillation
-2 +300°C
1
Total
385
48C
90C
Kinematic Viscosity
80.6 +83.4°C
0.05
Total
305
7F
-
Low Distillation
30 +580°F
2
Total
385
48F
90F
Kinematic Viscosity
177.5 +182.5°
0.1
Total
305
8C
6C
High Distillation
-2 +400°C
1
Total
385
49C
-
Stormer Viscosity
20 +70°C
0.2
65
305
8F
-
High Distillation
30 +760°F
2
Total
385
50F
-
Gas Calorimeter Inlet
54 +101°F
0.1
Total
468
9C
15C
Low Pensky Martens
-5 +110°C
0.5
57
290
51F
-
69 +116°F
0.1
Total
468
9F
15F
Low Pensky Martens
20 +230°F
1
57
290
52C
-
-10 +5°C
0.1
Total
162
10C
16C
High Pensky Martens
90 +370°C
2
57
290
10F
16F
200 +700°F
5
57
290
54C
18C
20 +100.6°
0.2
Total
310
54F
18F
Congealing Point
68 +213°F
0.5
Total
310
11C
28C
High Pensky Martens
Cleveland Open
Flash
Cleveland Open
Flash
Density-Wide Range
Gas Calorimeter Inlet
Butadiene Boiling
Point
Congealing Point
-6 +400°C
2
25
310
56C
-
Bomb Calorimeter
19 +35°C
0.02
Total
600
310
56F
-
Bomb Calorimeter
66 +95°F
0.05
Total
600
57C
-
Tag Closed
-20 +50°C
0.5
57
287
57F
-
Tag Closed
-4 +122°F
1
57
287
58C
-
Tank
-34 +49°C
0.5
Total
305
58F
-
Tank
-30 +120°F
1
Total
305
59C
-
Tank
-18 +82°C
0.5
Total
305
ASTM
11F
12C
IP
28F
64C
Name
12F
64F
Density-Wide Range
13C
47C
Loss on Heat
14C
17C
Range+T°
20 +760°F
-20 +102°C
5
0.2
25
Total
420
-5 +215°F
0.5
Total
420
115 +170°C
0.5
Total
155
Wax Melting Point
38 +82°C
0.1
79
375
14F
17F
Wax Melting Point
100 +180°F
0.2
79
375
15C
60C
Low Softening Point
-2 +80°C
0.2
Total
395
15F
-
Low Softening Point
30 +180°F
0.5
Total
395
16C
61C
High Softening Point
30 +200°C
0.5
Total
395
-
66 +80°F
0.2
Total
275
18C
23C
34 +42°C
0.1
Total
18F
23F
94 +108°F
0.2
Total
21C
305
60F
-
170 +500°F
2
Total
305
61C
63C
32 +127°C
0.2
79
380
63C
17F
-
305
Total
275
275
-
Total
1
-
395
Total
20F
1
77 +260°C
62F
Total
0.1
20C
0 +180°F
Tank
275
1
19 +27°C
Saybolt Viscosity
Tank
-
-
85 +392°F
Saybolt Viscosity
-
-
-
High Softening Point
-
19F
59F
60C
61F
-
-
Range+T°
62C
16F
19C
Name
Tank
Petrolatum Melting
Point
Petrolatum Melting
Point
Precision
17C
Saybolt Viscosity
Reid Vapour
Pressure
Reid Vapour
Pressure
Saybolt Viscosity
IP
49 +57°C
0.1
Total
275
120 +134°F
0.2
Total
275
Saybolt Viscosity
57 +65°C
0.1
Total
275
Saybolt Viscosity
134 +148°F
0.2
Total
275
-
Saybolt Viscosity
79 +87°C
0.1
Total
275
21F
-
Saybolt Viscosity
174 +188°F
0.2
Total
275
22C
24C
Oxidation Stability
95 +103°C
0.1
Total
275
22F
24F
Oxidation Stability
204 +218°F
0.2
Total
275
23C
-
Engler Viscosity
18 +28°C
0.2
90
212
24C
-
Engler Viscosity
39 +54°C
0.2
90
237
25C
-
Engler Viscosity
95 +105°C
0.2
90
212
130 +140°C
0.1
Total
463
147 +182°C
0.5
76
301
90 +260°F
0.5
79
380
-38 +2°C
0.1
Total
379
Precision
-36 +35°F
0.2
Total
379
-
Precision
-8 +32°C
0.1
Total
379
63F
-
Precision
18 +89°F
0.2
Total
379
64C
-
Precision
25 +55°C
0.1
Total
379
64F
-
Precision
77 +131°F
0.2
Total
379
65C
-
Precision
50 +80°C
0.1
Total
379
65F
-
Precision
122 +176°F
0.2
Total
379
66C
-
Precision
75 +105°C
0.1
Total
379
66F
-
Precision
167 +221°F
0.2
Total
379
67C
-
Precision
95 +155°C
0.2
Total
379
67F
-
Precision
203 +311°F
0.5
Total
379
68C
-
Precision
145 +205°C
0.2
Total
379
68F
-
Precision
293 +401°F
0.5
Total
379
69C
-
Precision
195 +305°C
0.5
Total
379
69F
-
Precision
383 +581°F
1
Total
379
70C
-
Precision
295 +405°C
0.5
Total
379
26C
-
27C
-
28C
31C
Stability Test
Turpentine
Distillation
Kinematic Viscosity
36.6 +39.4°C
0.05
Total
305
70F
-
Precision
563 +761°F
1
Total
379
28F
31F
Kinematic Viscosity
97.5 +102.5°F
0.1
Total
305
71C
72C
Oil in Wax
-37 +21°C
0.5
76
355
29C
34C
Kinematic Viscosity
52.6 +55.4°C
0.05
Total
305
71F
72F
Oil in Wax
-35 +70°F
1
76
355
29F
34F
Kinematic Viscosity
127.5 +132.5°F
0.1
Total
305
72C
67C
Kinematic Viscosity
19.4 -16.6°C
0.05
Total
305
30F
32F
Kinematic Viscosity
207.5 +212.5°F
0.1
Total
305
72F
67F
Kinematic Viscosity
-2.5 +2.5°F
0.1
Total
305
33C
20C
Low Aniline Point
-38 +42°C
0.2
50
420
73C
68C
Kinematic Viscosity
41.4 -38.6°C
0.05
Total
305
Low Aniline Point
36.5 +107.5°
0.5
50
420
73F
68F
Kinematic Viscosity
42.5 -37.5°F
0.1
Total
305
25 +105°C
0.2
50
420
74C
69C
Kinematic Viscosity
55.4 -52.6°C
0.05
Total
305
74F
69F
67.5 -62.5°F
0.1
Total
305
75F
-
-35 +35°F
0.5
100
408
-65 +5°F
0.5
100
408
245 +265°F
0.5
Total
275
33F
-
34C
21C
Medium Aniline Point
34F
-
Medium Aniline Point
77 +221°F
0.5
50
420
35C
59C
High Aniline Point
90 +170°C
0.2
50
420
35F
-
High Aniline Point
194 +338°F
0.5
50
420
36C
-
Titer Test
-2 +68°C
0.2
45
405
76F
-
37C
77C
Solvents Distillation
-2 +52°C
0.2
100
395
77F
-
Kinematic Viscosity
Anti-freeze Freezing
Point
Anti-freeze Freezing
Point
Saybolt Viscosity
38C
78C
Solvents Distillation
24 +78°C
0.2
100
395
78F
-
Saybolt Viscosity
295 +315°F
0.5
Total
275
39C
79C
Solvents Distillation
48 +102°C
0.2
100
395
79F
-
Saybolt Viscosity
345 +365°F
0.5
Total
275
40C
80C
Solvents Distillation
72 +126°C
0.2
100
395
80F
-
Saybolt Viscosity
395 +415°F
0.5
Total
275
41C
81C
Solvents Distillation
98 +152°C
0.2
100
395
81F
-
Saybolt Viscosity
445 +465°F
0.5
Total
275
42C
82C
Solvents Distillation
95 +255°C
0.5
100
395
82C
-
Fuel Rating. Engine
-15 +105°C
1
30
162
Division
mm
Immersion
mm
Lenght
mm
132 Thermometers
82F
-
Fuel Rating. Engine
0 +220°F
2
30
162
83C
-
Fuel Rating. Air
15 +70°C
1
40
171
83F
-
1
40
171
-
Air
Orifice
60 +160°F
84C
25 +80°C
1
249
383
84F
-
Orifice
75 +175°F
1
249
383
85C
-
Fuel Rating.
Fuel Rating.
Tank
Fuel Rating.
Tank
Fuel Rating.
Surge
40 +150°C
1
181
310
85F
-
Fuel Rating. Surge
100 +300°F
2
181
310
86C
-
Fuel Rating. Mix
95 +175°C
1
35
167
ASTM
IP
Name
Range+T°
86F
-
Fuel Rating. Mix
200 +350°F
2
35
167
87C
-
Fuel Rating. Coolant
150 +205°C
1
40
172
87F
-
Fuel Rating. Coolant
300 +400°F
1
40
172
88C
-
Vegetable Oil Flash
10 +200°C
1
57
287
88F
-
Vegetable Oil Flash
50 +392°F
2
57
287
89C
-
Solidification Point
-20 +10°C
0.1
76
370
90C
-
Solidification Point
0 +30°C
0.1
76
370
91C
-
Solidification Point
20 +50°C
0.1
76
370
92C
-
Solidification Point
40 +70°C
0.1
76
370
93C
-
Solidification Point
60 +90°C
0.1
76
370
94C
-
Solidification Point
80 +110°C
0.1
76
370
95C
-
Solidification Point
100 +130°C
0.1
76
370
96C
-
Solidification Point
120 +150°C
0.1
76
370
97C
-
Tank
-18 +49°C
0.5
Total
305
97F
-
Tank
0 +120°F
1
Total
305
98C
-
Tank
16 +82°C
0.5
Total
305
98F
-
Tank
60 +180°F
1
Total
305
99C
-
Weathering Test
-50 +5°C
0.2
35
302
99F
-
Weathering Test
-55 +40°F
0.5
35
302
100C
-
Solidification Point
145 +205°C
0.2
76
370
101C
-
Solidification Point
195 +305°C
0.5
76
370
102C
83C
Solvents Distillation
123 +177°C
0.2
100
395
103C
84C
Solvents Distillation
148 +202°C
0.2
100
395
104C
85C
Solvents Distillation
173 +227°C
0.2
100
395
105C
86C
Solvents Distillation
198 +252°C
0.2
100
395
106C
87C
Solvents Distillation
223 +277°C
0.2
100
395
107C
88C
Solvents Distillation
248 +302°C
0.2
100
395
108F
-
Saybolt Viscosity
270 +290°F
0.5
Total
175
109F
-
Saybolt Viscosity
320 +340°F
0.5
Total
175
110C
83C
Kinematic Viscosity
133.6 +136.4°C 0.05
Total
305
110F
-
Kinematic Viscosity
272.5 +277.5°F
Total
305
170 +250°C
0.2
100
395
4 +6°C
0.02
Total
215
-1 +175°C
0.5
Total
405
30 +350°F
1
Total
405
111C
-
Tar Acids Distllation
112C
-
112C
89C
113F
89F
114C
14C
116C
-
of Benzene
Softening Point Wide
Range
Softening Point Wide
Range
Aviation Fuel
Freezing Point
Bomb Calorimeter
0.1
-80 +20°C
0.5
Total
300
18.9 +25.1°C
0.01
Total
609
117C
-
Bomb Calorimeter
23.9 +30.1°C
0.01
Total
609
118C
-
Kinematic Viscosity
28.6 +31.4°C
0.05
Total
305
83.5 +88.5°F
0.1
Total
305
38.3 -30°C
0.1
100
420
-37 -22°F
0.2
100
420v
38.6 +41.4°C
0.05
Total
305
98.6 +101.4°C
0.05
Total
305
305
118F
-
119C
-
120C
92C
Kinematic Viscosity
Anti-Freeze Freezing
Point
Anti-Freeze Freezing
Point
Kinematic Viscosity
119F
-
121C
32C
Kinematic Viscosity
122C
94C
Brookfield Viscosity
-45 -35°C
0.1
Total
123C
95C
Brookfield Viscosity
-35 -25°C
0.1
Total
305
124C
96C
Brookfield Viscosity
-25 -15°C
0.1
Total
305
125C
97C
Brookfield Viscosity
-15 -5°C
0.1
Total
305
126C
71C
Kinematic Viscosity
27.4 -24.6°C
0.05
Total
305
126F
71F
Kinematic Viscosity
17.5 -12.5°F
0.1
Total
305
127C
99C
Kinematic Viscosity
21.4 -18.6°C
0.05
Total
305
128C
33C
Kinematic Viscosity
-1.4 +1.4°C
0.05
Total
305
128F
33F
Kinematic Viscosity
29.5 +34.5°F
0.1
Total
305
129C
36C
Kinematic Viscosity
91.6 +94.4°C
0.05
Total
305
129F
36F
Kinematic Viscosity
197.5 +202.5°F
0.1
Total
305
133 Thermometers
14C
114C
15C
15F
16C
16F
17C
17F
18C
20C
21C
22C
9C
9F
10C
10F
14C
14F
54C
54C
33C
34C
23C
18C
28F
11F
29C
29F
30C
30F
31C
31F
32C
32F
33C
33F
34C
34F
35C
35F
36C
36F
37C
38C
39C
39F
40C
41C
42C
43C
43F
44C
44C
44F
45C
45F
28C
28F
121C
30F
128C
128F
29C
29F
47C
47F
129C
129F
-
Partial immersion
Cloud and Pour
Cloud and Pour
Low Cloud and Pour
Low Cloud and Pour
Demulsification
Demulsification
Crude Oil Distillation
Low Distillation
High Distillation
Flushing Case Low
Flushing Case Low
Aviation Fuel
Freezing Point
Low Pensky Martens
Low Pensky Martens
High Pensky Martens
High Pensky Martens
Wax Melting Point
Wax Melting Point
Congealing Point
Low Aniline Point
Medium Aniline Point
Oxidation
Reid Vapour
Pressure
Reid Vapour
Pressure
Oxidation Stability
Oxidation Stability
Cleveland Open
Flash
Cleveland Open
Flash
Kinematic Viscosity
Kinematic Viscosity
Kinematic Viscosity
Kinematic Viscosity
Kinematic Viscosity
Kinematic Viscosity
Kinematic Viscosity
Kinematic Viscosity
Kinematic Viscosity
Kinematic Viscosity
Kinematic Viscosity
Kinematic Viscosity
Kinematic Viscosity
Kinematic Viscosity
Kinematic Viscosity
Kinematic Viscosity
Sludge
Penetration
Density
Relative Density
Drop Point Low
Drop Point Low
Breaking Point
FP Cut-Back (Int)
FP Cut-Back (Int)
FP Cut-Back (Ext)
44F
45C
46C
46F
47C
48C
49C
50C
51C
52C
13C
-
FP Cut-Back (Ext)
Refractometer
Gravity Balance
Gravity Balance
Loss on Heating
Tank Low
Tank Medium
Tank High
Tank Heated Fuel
Tank Bitumen
23F
18F
24C
24F
22C
22F
28C
11C
-20 +150°C
-38 +50°C
-36 +120°F
-80 +20°C
-112 +70°F
-1 +105°C
30 +220°F
-4 +360°C
-2 +300°C
-2 +400°C
0 +45°C
40 +85°C
1
1
2
1
2
0.5
1
2
1
1
0.2
0.2
76
108
108
76
76
Total
Total
Total
Total
Total
65
65
322
230
230
230
230
310
385
385
340
340
-80 +20°C
0.5
Total
300
-5 +110°C
20 +230°F
90 +370°C
200 +700°F
38 +82°C
100 +180°F
20 +100.6°C
-38 +42°C
25 +105°C
195 +205°C
0.5
1
2
5
0.1
0.2
0.2
0.2
0.2
0.1
57
57
57
57
79
79
Total
50
50
100
290
290
290
290
375
375
310
420
420
300
34 +42°C
0.1
Total
275
94 +108°F
0.2
Total
275
95 +103°C
204 +218°F
0.1
0.2
Total
Total
275
275
-6 +400°C
2
25
310
20 +760°F
5
25
310
18.6 +21.4°C
66.5 +71.5°F
23.6 +26.4°C
74.5 +79.5°F
36.6 +39.4°C
97.5 +102.5°F
98.6 +101.4°C
207.5 +212.5°F
-1.4 +1.4°C
29.5 +34.5°F
52.6 +55.4°C
127.5 +132.5°F
58.6 +61.4°C
137.5 +142.5°F
91.6 +94.4°C
197.5 +202.5°F
144 +156°C
23 +27°C
-1 -38°C
30 +100°F
20 +120°C
30 +100°F
20 +120°C
10 +110°C
50 +230°F
15 +121°C
0.05
0.1
0.05
0.1
0.05
0.1
0.05
0.1
0.05
0.1
0.05
0.1
0.05
0.1
0.05
0.1
0.2
0.1
0.1
0.2
1
1
0.5
0.5
1
0.5
Total
Total
Total
Total
Total
Total
Total
Total
Total
Total
Total
Total
Total
Total
Total
Total
100
Total
Total
Total
100
100
250
-
305
305
305
305
305
305
305
305
305
305
305
305
305
305
305
305
270
260
440
440
250
250
370
305
305
305
60 +250°F
15 +30°C
14.5 +21°C
58° +70°F
115 +170°C
-38 +30°C
-15 +40°C
10 +65°C
35 +120°C
90 +260°C
1
0.2
0.1
0.2
0.5
0.5
0.5
0.5
0.5
1
22
Total
Total
Total
Total
Total
Total
Total
Total
305
160
160
160
155
310
310
310
310
310
IP
Name
53C
59C
35C
60C
15C
61C
16C
62C
62F
2C
2F
63C
61C
64C
12C
64F
12F
65C
-
65F
66C
43F
46C
Tank Cargo
High Aniline Point
Low Softening
Point
High Softening
Point
Partial Immersion
Partial Immersion
Petrolatum Melting
Point
Density-Wide
Range
Density-Wide
Range
Kinematic Viscosity
Low
Kinematic Viscosity
Kinematic Viscosity
66F
46F
Kinematic Viscosity
67C
67F
68C
68F
69C
69F
71C
71F
72C
72F
73C
73F
72C
72F
73C
73F
74C
74F
126C
126F
71C
71F
3C
3F
74C
-
74F
-
75C
-
75F
-
76C
77C
78C
79C
80C
81C
82C
83C
84C
85C
86C
87C
88C
37C
38C
39C
40C
41C
42C
102C
103C
104C
105C
106C
107C
89C
113C
89F
113F
90C
48C
Kinematic Viscosity
Kinematic Viscosity
Kinematic Viscosity
Kinematic Viscosity
Kinematic Viscosity
Kinematic Viscosity
Kinematic Viscosity
Kinematic Viscosity
Oil in Wax
Oil in Wax
Partial Immersion
Partial Immersion
Abel Oil Cup Wide
Range
Abel Oil Cup Wide
Range
Abel Water Bath
Wide Range
Abel Water Bath
Wide Range
Engler Viscosity
Solvents Distillation
Solvents Distillation
Solvents Distillation
Solvents Distillation
Solvents Distillation
Solvents Distillation
Solvents Distillation
Solvents Distillation
Solvents Distillation
Solvents Distillation
Solvents Distillation
Solvents Distillation
Softening Point
Wide Range
Softening Point
Wide Range
Kinematic Viscosity
90F
48F
Kinematic Viscosity
92C
120C Kinematic Viscosity
93C
110C Kinematic Viscosity
94C
95C
96C
97C
99C
100C
122C
123C
124C
125C
127C
-
101C -
Range+T°
Lenght
mm
5C
5F
6C
6F
7C
8C
-
ASTM
Immersion
mm
1C
1C
1F
2C
2F
3C
3F
4C
5C
6C
8C
9C
Range+T°
Division
mm
Name
Lenght
mm
IP
Immersion
mm
ASTM
Division
mm
IP Thermometers
0 +80°C
90 +170°C
0.5
0.2
Total 310
50
420
-2 +80°C
0.2
Total 395
30 +200°C
0.5
Total 395
-5 +300°C
20 +580°F
1
2
76
76
390
390
32 +127°C
0.2
79
380
-20 +102°C
0.2
Total 420
-5 +215°F
0.5
Total 420
51.6 -34°C
0.1
Total 420
-61 -29°F
48.6 +51.4°C
119.5
+124.5°F
19.4 -16.6°C
-2.5 +2.5°F
41.4 -38.6°C
42.5 -37.5°F
55.4 -52.6°C
67.5 -62.5°F
27.4 -24.6°C
17.5 -12.5°F
-37 +21°C
-35 +70°F
-5 +400°C
20 +760°F
0.2
Total 420
0.05 Total 305
0.1
Total 305
0.05
0.1
0.05
0.1
0.05
0.1
0.05
0.1
0.5
1
1
2
Total
Total
Total
Total
Total
Total
Total
Total
76
76
76
76
305
305
305
305
305
305
305
305
355
355
415
415
-35 +70°C
0.5
61
310
-35 +160°F
1
61
310
-30 +80°C
0.5
89
310
-25° +180°F
1
89
310
10 +55°C
-2 +52°C
24 +78°C
48 +102°C
72 +126°C
98 +152°C
95 +255°C
123 +177°C
148 +202°C
173 +227°C
198 +252°C
223 +277°C
248 +302°C
0.5
0.2
0.2
0.2
0.2
0.2
0.5
0.2
0.2
0.2
0.2
0.2
0.2
93
100
100
100
100
100
100
100
100
100
100
100
100
240
395
395
395
395
395
395
395
395
395
395
395
395
-1 +175°C
0.5
Total 405
30 +350°F
1
Total 405
80.6 +83.4°C
177.5
+182.5°F
38.6 +41.4°C
133.6
+136.4°C
-45 -35°C
-35 -25°C
-25 -15°C
-15 -5°C
21.4 -18.6°C
78.6 81.4°C
0.05 Total 305
Brookfield Viscosity
Brookfield Viscosity
Brookfield Viscosity
Brookfield Viscosity
Kinematic Viscosity
Kinematic Viscosity
Medium Pensky
20 +150°C
Martens
0.1
Total 305
0.05 Total 305
0.05 Total 305
0.1
0.1
0.1
0.1
0.05
0.05
Total
Total
Total
Total
Total
Total
305
305
305
305
305
305
1
57
290
Linetronic Technologies
Linetronic Technologies is a Swiss company with its
headquarters in Mendrisio, in the canton of Ticino.
The company was established in 2000; thanks to a young,
energetic, and highly skilled technical team. The roots
and the ability of the company go back on a historical gain,
with years of experience in manufacturing and designing.
A wide range of analysers for petroleum testing therefore
allows us to expand and develop new analytical platforms.
The year 2000 saw the presentation and arrival of the
new software operating under all versions of Windows*
characteristics, which are very simple to use.
The development of this software project has adhered
itself to the already existing range of products sold earlier
to its clients. This allows the client the possibility to keep
their analysers up to date while giving highly qualified
technical support.
It also allows them to complete the instruments area
with the new range of automatic laboratory analysers
Newlab, without the necessity to instruct the staff. In
order to satisfy its clients, in 2003 Linetronic Technologies
launched a vast and complete range of manual and
semi-automatic analytical instruments onto the market
which are conform to the numerous petroleum norms.
At the present, Linetronic Technologies is engaged in the
development of new on-line analysers which have always
created a quite big interest and a very good reply on an
international level for an exigent clientele.
Philosophy
Employment of market standards (electronic,
informatics, analyses). Based on the principal of
absolute respect towards analytical methods ASTM, IP,
ISO, EN, DIN.
Development
Analytical systems, which go with the exigencies
of each client.
Implementation
Incorporation of the analytical system within
the Laboratory. Incorporation of the analytical system
onto the production lines by respecting the norms.
Results
Direct correspondence of the norms between
the analytical systems for laboratory and processing.
Same method and same standard.
Comparable results, which give a total satisfaction
and sureness to the user.
Advantages
More speediness, developed efficiency, a direct link
between the laboratory and the production, user facility
and low maintenance costs of management.
Linetronic Technologies’s products are for:
Authorities of certified controls and/or certification
Authorities of sureness and control
Central laboratories, pipelines of refineries
Customs laboratories Airport laboratories
Electric Centrals
Food industry
Laboratories for control of vegetable oils and of greases
Laboratories or private institutes
Pharmaceutical industry
Producers of additives
Producers of oils and lubricants
Quality control of the Product
Research Laboratories of petroleum Companies
Storehouses of oils and lubricants
Linetronic Technologies’s concept
Since July 2005 Linetronic Technologies is ISO 9001:2000.
Linetronic Technologies SA
via Onorio Longhi 2
6864 Arzo – Switzerland
tel. +41 91 630 07 03
fax +41 91 630 07 19
www.lin-tech.ch
[email protected]
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