molding and core sand testing equipment - Multiserw

MOLDING AND CORE SAND TESTING
EQUIPMENT
.
Measuring devices for foundry engineering
Company history
MULTISERW-Morek is a manufacturer of testing and measuring equipment used to test properties of construction materials (including road
construction materials) as well as molding and core sand. Its registered office is located in the village of Marcyporęba in Małopolskie Province
in Poland.
All major companies operating in the construction (and road construction) materials and foundry industries in Poland base their activities on the
equipment produced by MULTISERW-Morek. In its current form, the Company has been operating since 5 December 1998. Before that time, a private
partnership MULTISERW had been active in the same industry. The beginning point of the whole story connected with the activities in the industry of
manufacturers of testing and measuring equipment was Instytut Odlewnictwa (Foundry Institute) in Kraków, later reorganized to Przedsiębiorstwo
Państwowe (State-owned Undertaking) “WADAP” – Wadowice, where the two co-founders of MULTISER s.c. Morek had been working.
s.c. As a result of economic reforms in Poland, the state-owned organization was wound up in 1990. And that moment was an opportunity to continue the
work started by WADAP. When on 12 September 1991, MULTISERW s.c. was incorporated, nobody even imagined that it would grow to its today’s
proportions. Initially, the Company activities were supposed to be based solely on servicing the equipment manufactured by WADAP. Over time,
however, it turned out that the needs of the market were a great deal more complex in terms of how technologically advanced services were demanded,
i.e. conducting minor repairs and issuing certificates to laboratory equipment was not enough. And precisely out of the need to design new devices, an
agreement was signed with Instytut Odlewnictwa and Akademia Górniczo-Hutnicza (AGH University of Science and Technology) in Kraków. Today both
those institutions exercise scientific patronage over the activities of the Company.
Quality
Thanks to the painstaking and systematic work of the whole team, MULTISERW-Morek boasts numerous awards, certificates and medals at
the major international trade fairs. The latest achievement of MULTISERW-Morek is the GRANDPRIX at the International Exhibition GEOLOGY
2012 in Warszawa, Poland, which was awarded for the “Electrical Density Gauge (EDG).”
It is also important to note the fact that our Company, despite its small size, is one of the few in this industry on the Polish market. The demands of
modern industry and the possibility to make use of the latest developments in the field of measurement technology have led us to continue the
development and improvements with regard to equipment manufacture. The testing and measuring instruments made by MULTISERW-Morek are used
in industrial laboratories as well as science and research facilities. These instruments are characterized by high quality, which is proven by their users. In
order to ensure the highest quality of the instruments manufactured by our Company, we have implemented ISO 9001 Quality Management System as
well as ISO 14001 Environmental Management System. Information on our mission and adopted policy of an Integrated Management System can be
found at www.multiserw-morek.pl.
Service (repairs)
At MULTISERW-Morek we strongly believe that “responsibility is the most important principle. We never leave our Customers on their own
when they need us.” Customers are very important to us, even after the sale and installation of a device in a laboratory. Thus, we also provide
repair services both at the headquarters of MULTISERW-Morek as well as in Customers’ laboratories, including Poland, the EU and other
countries.
Our team of engineers and technicians provides professional support, helping to solve technical problems. Our employees are highly qualified thanks to
their participation at numerous repair training sessions organized by manufacturers of equipment and software. Each and every employee providing
technical support to our Customers aims at constant improvement of their skills. Thanks to skilled staff and rich technical facilities, we are well prepared
for providing a full range of repair services of the products that we sell. In order to ensure a fast repair of equipment and enable each Customer to
continue their work uninterrupted, we offer a wide range of spare parts and replacement equipment. Our repair services are tailored to each
Customer’s expectations!
2
Phone: +48 33 879 21 72
Measuring devices for foundry engineering
Laboratory (test) sieves
MULTISERW-Morek is the leading manufacturer of analytical sieves used in quality control laboratories all
over the world. All our sieves are made in compliance with national or international specifications. Moreover,
each has a declaration of conformity and an individual serial number, which makes it possible to accurately
trace its history.
Our analytical sieves undergo inspection according to
procedures set out in clause 5.2 of the PN-ISO 3310
standard. Each sieve is manufactured in compliance with
the most demanding procedures of ensuring quality and
using the best materials. The woven wire cloth is
inspected during the production process by means of the
optical projection method and complex computer scanning
techniques.
Mesh size measurement and frame dimensions of a sieve
ensure that our size and dimensions accuracy standards
are conformed to, which is proven by declarations of
conformity.
Being a manufacturer of laboratory sieves, MULTISERWMorek also provides conformity assessment services of
sieves with the standard and calibration services of PCA
sieves (ILAC-MRA), which confirm conformity of our
sieves to the PN-ISO 3310-1 and the PN-ISO 3310-2
standards.
MULTISERW-Morek manufactures a wide range of test
sieves. We offer both fine woven wire cloth and
perforated stainless sheet sieves, addressing the
demands of many branches of industry.
Our sieves are available in versions with diameters of 100
(on request), 200, 300 and 400 mm. Sieve mesh sizes
range from 125 mm to 0.020 mm for square-shaped mesh
and from 125 mm to 1 mm for round-shaped mesh. Our
analytical sieves may be supplied with plastic frames (only
for 200 mm sieves) or stainless steel frames made of Ak
alloy. All sieves are manufactured in accordance with the
highest quality standards in order to ensure high quality
and precision of the product.
Also available are: sieve covers (for dry sieving or wet
sieving using water for rinsing), containers for sieves (dry
and wet sieving), intermediate rings made of plastic or
stainless Ak alloy, ultrasonic cleaners for laboratory sieves
cleaning, sample dividers and many more accessories
useful in conducting a sieve analysis.
www.multiserw-morek.pl
3
Measuring devices for foundry engineering
Sieves sizes table
Stainless woven wire cloth laboratory sieves in accordance with PN-ISO 3310-1/ASTM E11
Mesh
size
Ø200 mm × 25 mm Ø200 mm × 25 mm Ø200 mm × 25 mm Ø200 mm × 50 mm Ø200 mm × 50 mm Ø200 mm × 50 mm Ø300 mm × 50 mm Ø400 mm × 60 mm
----------
Plastic frame
Ak alloy frame
Ak HB* alloy frame
Plastic frame
Ak alloy frame
Ak HB* alloy frame
Ak alloy frame
Ak alloy frame
3.55 mm
2s–3/3.55/25
2s–3/AL/3.55/25
199.5/3.5/25
2s–3/3.55/50
2s–3/AL/3.55/50
199.5/3.5/50
3s–3/3.55/50
4s–3/3.55/50
2s–3/3.35/25
2s–3/AL/3.35/25
199.5/3.35/25
2s–3/3.35/50
2s–3/AL/3.35/50
199.5/3.35/50
3s–3/3.35/50
4s–3/3.35/50
3.15 mm
2s–3/3.15/25
2s–3/AL/3.15/25
199.5/3.15/25
2s–3/3.15/50
2s–3/AL/3.15/50
199.5/3.15/50
3s–3/3.15/50
4s–3/3.15/50
3.00 mm**
2s–3/3.00/25
2s–3/AL/3.00/25
199.5/3.00/25
2s–3/3.00/50
2s–3/AL/3.00/50
199.5/3.00/50
3s–3/3.00/50
4s–3/3.00/50
2s–3/2.80/25
2s–3/AL/2.80/25
199.5/2.80/25
2s–3/2.80/50
2s–3/AL/2.80/50
199.5/2.80/50
3s–3/2.80/50
4s–3/2.80/50
2s–3/2.50/25
2s–3/AL/2.50/25
199.5/2.50/25
2s–3/2.50/50
2s–3/AL/2.50/50
199.5/2.50/50
3s–3/2.50/50
4s–3/2.50/50
2s–3/2.36/25
2s–3/AL/2.36/25
199.5/2.36/25
2s–3/2.36/50
2s–3/AL/2.36/50
199.5/2.36/50
3s–3/2.36/50
4s–3/2.36/50
2s–3/2.24/25
2s–3/AL/2.24/25
199.5/2.24/25
2s–3/2.24/50
2s–3/AL/2.24/50
199.5/2.24/50
3s–3/2.24/50
4s–3/2.24/50
2s–3/2.00/25
2s–3/AL/2.00/25
199.5/2.00/25
2s–3/2.00/50
2s–3/AL/2.00/50
199.5/2.00/50
3s–3/2.00/50
4s–3/2.00/50
2s–3/1.80/25
2s–3/AL/1.80/25
199.5/1.80/25
2s–3/1.80/50
2s–3/AL/1.80/50
199.5/1.80/50
3s–3/1.80/50
4s–3/1.80/50
2s–3/1.70/25
2s–3/AL/1.70/25
199.5/1.70/25
2s–3/1.70/50
2s–3/AL/1.70/50
199.5/1.70/50
3s–3/1.70/50
4s–3/1.70/50
2s–3/1.60/25
2s–3/AL/1.60/25
199.5/1.60/25
2s–3/1.60/50
2s–3/AL/1.60/50
199.5/1.60/50
3s–3/1.60/50
4s–3/1.60/50
2s–3/1.50/25
2s–3/AL/1.50/25
199.5/1.50/25
2s–3/1.50/50
2s–3/AL/1.50/50
199.5/1.50/50
3s–3/1.50/50
4s–3/1.50/50
2s–3/1.25/25
2s–3/AL/1.25/25
199.5/1.25/25
2s–3/1.25/50
2s–3/AL/1.25/50
199.5/1.25/50
3s–3/1.25/50
4s–3/1.25/50
1.18 mm (No. 16)
2s–3/1.18/25
2s–3/AL/1.18/25
199.5/1.18/25
2s–3/1.18/50
2s–3/AL/1.18/50
199.5/1.18/50
3s–3/1.18/50
4s–3/1.18/50
1 mm (No. 18)
2s–3/1.00/25
2s–3/AL/1.00/25
199.5/1.00/25
2s–3/1.00/50
2s–3/AL/1.00/50
199.5/1.00/50
3s–3/1.00/50
4s–3/1.00/50
2s–2/0.900/25
2s–2/AL/0.900/25
199.5/0.900/25
2s–2/0.900/50
2s–2/AL/0.900/50
199.5/0.900/50
3s–2/0.900/50
4s–2/0.900/50
2s–2/0.850/25
2s–2/AL/0.850/25
199.5/0.850/25
2s–2/0.850/50
2s–2/AL/0.850/50
199.5/0.850/50
3s–2/0.850/50
4s–2/0.850/50
2s–2/0.800/25
2s–2/AL/0.800/25
199.5/0.800/25
2s–2/0.800/50
2s–2/AL/0.800/50
199.5/0.800/50
3s–2/0.800/50
4s–2/0.800/50
2s–2/0.710/25
2s–2/AL/0.710/25
199.5/0.710/25
2s–2/0.710/50
2s–2/AL/0.710/50
199.5/0.710/50
3s–2/0.710/50
4s–2/0.710/50
2s–2/0.630/25
2s–2/AL/0.630/25
199.5/0.630/25
2s–2/0.630/50
2s–2/AL/0.630/50
199.5/0.630/50
3s–2/0.630/50
4s–2/0.630/50
600 µm (No. 30)
2s–2/0.600/25
2s–2/AL/0.600/25
199.5/0.600/25
2s–2/0.600/50
2s–2/AL/0.600/50
199.5/0.600/50
3s–2/0.600/50
4s–2/0.600/50
500 µm (No. 35)
2s–2/0.500/25
2s–2/AL/0.500/25
199.5/0.500/25
2s–2/0.500/50
2s–2/AL/0.500/50
199.5/0.500/50
3s–2/0.500/50
4s–2/0.500/50
425 µm (No. 40)
2s–2/0.425/25
2s–2/AL/0.425/25
199.5/0.425/25
2s–2/0.425/50
2s–2/AL/0.425/50
199.5/0.425/50
3s–2/0.425/50
4s–2/0.425/50
2s–2/0.400/25
2s–2/AL/0.400/25
199.5/0.400/25
2s–2/0.400/50
2s–2/AL/0.400/50
199.5/0.400/50
3s–2/0.400/50
4s–2/0.400/50
2s–2/0.355/25
2s–2/AL/0.355/25
199.5/0.355/25
2s–2/0.355/50
2s–2/AL/0.355/50
199.5/0.355/50
3s–2/0.355/50
4s–2/0.355/50
2s–2/0.325/25
2s–2/AL/0.325/25
199.5/0.325/25
2s–2/0.325/50
2s–2/AL/0.325/50
199.5/0.325/50
3s–2/0.325/50
4s–2/0.325/50
300 µm (No. 50)
2s–2/0.300/25
2s–2/AL/0.300/25
199.5/0.300/25
2s–2/0.300/50
2s–2/AL/0.300/50
199.5/0.300/50
3s–2/0.300/50
4s–2/0.300/50
250 µm (No. 60)
2s–2/0.250/25
2s–2/AL/0.250/25
199.5/0.250/25
2s–2/0.250/50
2s–2/AL/0.250/50
199.5/0.250/50
3s–2/0.250/50
4s–2/0.250/50
212 µm (No. 70)
2s–2/0.212/25
2s–2/AL/0.212/25
199.5/0.212/25
2s–2/0.212/50
2s–2/AL/0.212/50
199.5/0.212/50
3s–2/0.212/50
4s–2/0.212/50
2s–2/0.200/25
2s–2/AL/0.200/25
199.5/0.200/25
2s–2/0.200/50
2s–2/AL/0.200/50
199.5/0.200/50
3s–2/0.200/50
4s–2/0.200/50
2s–2/0.180/25
2s–2/AL/0.180/25
199.5/0.180/25
2s–2/0.180/50
2s–2/AL/0.180/50
199.5/0.180/50
3s–2/0.180/50
4s–2/0.180/50
2s–2/0.160/25
2s–2/AL/0.160/25
199.5/0.160/25
2s–2/0.160/50
2s–2/AL/0.160/50
199.5/0.160/50
3s–2/0.160/50
4s–2/0.160/50
150 µm (No. 100)
2s–2/0.150/25
2s–2/AL/0.150/25
199.5/0.150/25
2s–2/0.150/50
2s–2/AL/0.150/50
199.5/0.150/50
3s–2/0.150/50
4s–2/0.150/50
125 µm (No. 120)
2s–2/0.125/25
2s–2/AL/0.125/25
199.5/0.125/25
2s–2/0.125/50
2s–2/AL/0.125/50
199.5/0.125/50
3s–2/0.125/50
4s–2/0.125/50
106 µm (No. 140)
2s–2/0.106/25
2s–2/AL/0.106/25
199.5/0.106/25
2s–2/0.106/50
2s–2/AL/0.106/50
199.5/0.106/50
3s–2/0.106/50
4s–2/0.106/50
2s–2/0.100/25
2s–2/AL/0.100/25
199.5/0.100/25
2s–2/0.100/50
2s–2/AL/0.100/50
199.5/0.100/50
3s–2/0.100/50
4s–2/0.100/50
2s–2/0.090/25
2s–2/AL/0.090/25
199.5/0.090/25
2s–2/0.090/50
2s–2/AL/0.090/50
199.5/0.090/50
3s–2/0.090/50
4s–2/0.090/50
2s–2/0.080/25
2s–2/AL/0.080/25
199.5/0.080/25
2s–2/0.080/50
2s–2/AL/0.080/50
199.5/0.080/50
3s–2/0.080/50
4s–2/0.080/50
75 µm (No. 200)
2s–1/0.075/25
2s–1/AL/0.075/25
199.5/0.075/25
2s–1/0.075/50
2s–1/AL/0.075/50
199.5/0.075/50
3s–1/0.075/50
4s–1/0.075/50
63 µm (No. 230)
2s–1/0.063/25
2s–1/AL/0.063/25
199.5/0.063/25
2s–1/0.063/50
2s–1/AL/0.063/50
199.5/0.063/50
3s–1/0.063/50
4s–1/0.063/50
53 µm (No. 270)
2s–1/0.053/25
2s–1/AL/0.053/25
199.5/0.053/25
2s–1/0.053/50
2s–1/AL/0.053/50
199.5/0.053/50
3s–1/0.053/50
4s–1/0.053/50
2s–1/0.050/25
2s–1/AL/0.050/25
199.5/0.050/25
2s–1/0.050/50
2s–1/AL/0.050/50
199.5/0.050/50
3s–1/0.050/50
4s–1/0.050/50
2s–1/0.045/25
2s–1/AL/0.045/25
199.5/0.045/25
2s–1/0.045/50
2s–1/AL/0.045/50
199.5/0.045/50
3s–1/0.045/50
4s–1/0.045/50
2s–1/0.040/25
2s–1/AL/0.040/25
199.5/0.040/25
2s–1/0.040/50
2s–1/AL/0.040/50
199.5/0.040/50
3s–1/0.040/50
4s–1/0.040/50
2s–0/0.038/25
2s–0/AL/0.038/25
199.5/0.038/25
2s–0/0.038/50
2s–0/AL/0.038/50
199.5/0.038/50
3s–0/0.038/50
4s–0/0.038/50
32 µm
2s–0/0.032/25
2s–0/AL/0.032/25
199.5/0.032/25
2s–0/0.032/50
2s–0/AL/0.032/50
199.5/0.032/50
3s–0/0.032/50
4s–0/0.032/50
25 µm
2s–0/0.025/25
2s–0/AL/0.025/25
199.5/0.025/25
2s–0/0.025/50
2s–0/AL/0.025/50
199.5/0.025/50
3s–0/0.025/50
4s–0/0.025/50
20 µm
2s–0/0.020/25
2s–0/AL/0.020/25
199.5/0.020/25
2s–0/0.020/50
2s–0/AL/0.020/50
199.5/0.020/50
3s–0/0.020/50
4s–0/0.020/50
3.35 mm (No. 6)
2.8 mm (No. 7)
2.5 mm
2.36 mm (No. 8)
2.24 mm
2 mm (No. 10)
1.80 mm
1.7 mm (No. 12)
1.6 mm
1.4 mm (No. 14)
1.25 mm
900 µm
850 µm (No. 20)
800 µm
710 µm (No. 25)
630 µm
400 µm
355 µm (No. 45)
315 µm
200 µm
180 µm (No. 80)
160 µm
100 µm
90 µm (No. 170)
80 µm
50 µm
45 µm (No. 325)
40 µm
38 µm (No. 400)
* sieve diameter corresponding to other manufacturers’ sieves: Impact, Retsch, Fritsch, Controls, Infratest, Emel, Eko-Lab, Haver&Boecker
** sieve complying with the Polish technical standard
4
Phone: +48 33 879 21 72
Measuring devices for foundry engineering
Perforated stainless sheet laboratory sieves in accordance with PN-ISO 3310-2/ASTM E11
Mesh size
Ø200 mm × 25 mm Ø200 mm × 25 mm Ø200 mm × 25 mm Ø200 mm × 50 mm Ø200 mm × 50 mm Ø200 mm × 50 mm Ø300 mm × 50 mm Ø400 mm × 60 mm
----------
Plastic frame
Ak alloy frame
Ak HB* alloy frame
Plastic frame
Ak alloy frame
Ak HB* alloy frame
Ak alloy frame
Ak alloy frame
125 mm
2s–4/125.0/25
2s–4/AL/125.0/25
199.5/125.0/25
2s–4/125.0/50
2s–4/AL/125.0/50
199.5/125.0/50
3s–4/125.0/50
4s–4/125.0/50
106 mm
2s–4/106.0/25
2s–4/AL/106.0/25
199.5/106.0/25
2s–4/106.0/50
2s–4/AL/106.0/50
199.5/106.0/50
3s–4/106.0/50
4s–4/106.0/50
100 mm (4”)
2s–4/100.0/25
2s–4/AL/100.0/25
199.5/100.0/25
2s–4/100.0/50
2s–4/AL/100.0/50
199.5/100.0/50
3s–4/100.0/50
4s–4/100.0/50
90 mm (3½”)
2s–4/90.00/25
2s–4/AL/90.00/25
199.5/90.00/25
2s–4/90.00/50
2s–4/AL/90.00/50
199.5/90.00/50
3s–4/90.00/50
4s–4/90.00/50
80 mm
2s–4/80.00/25
2s–4/AL/80.00/25
199.5/80.00/25
2s–4/80.00/50
2s–4/AL/80.00/50
199.5/80.00/50
3s–4/80.00/50
4s–4/80.00/50
75 mm (3”)
2s–4/75.00/25
2s–4/AL/75.00/25
199.5/75.00/25
2s–4/75.00/50
2s–4/AL/75.00/50
199.5/75.00/50
3s–4/75.00/50
4s–4/75.00/50
63 mm (2½”)
2s–4/63.00/25
2s–4/AL/63.00/25
199.5/63.00/25
2s–4/63.00/50
2s–4/AL/63.00/50
199.5/63.00/50
3s–4/63.00/50
4s–4/63.00/50
56 mm
2s–4/56.00/25
2s–4/AL/56.00/25
199.5/56.00/25
2s–4/56.00/50
2s–4/AL/56.00/50
199.5/56.00/50
3s–4/56.00/50
4s–4/56.00/50
53 mm (2.12”)
2s–4/53.00/25
2s–4/AL/53.00/25
199.5/53.00/25
2s–4/53.00/50
2s–4/AL/53.00/50
199.5/53.00/50
3s–4/53.00/50
4s–4/53.00/50
50 mm (2”)
2s–4/50.00/25
2s–4/AL/50.00/25
199.5/50.00/25
2s–4/50.00/50
2s–4/AL/50.00/50
199.5/50.00/50
3s–4/50.00/50
4s–4/50.00/50
45 mm (1¾”)
2s–4/45.00/25
2s–4/AL/45.00/25
199.5/45.00/25
2s–4/45.00/50
2s–4/AL/45.00/50
199.5/45.00/50
3s–4/45.00/50
4s–4/45.00/50
40 mm
2s–4/40.00/25
2s–4/AL/40.00/25
199.5/40.00/25
2s–4/40.00/50
2s–4/AL/40.00/50
199.5/40.00/50
3s–4/40.00/50
4s–4/40.00/50
37.5 mm (1½”)
2s–4/37.50/25
2s–4/AL/37.50/25
199.5/37.50/25
2s–4/37.50/50
2s–4/AL/37.50/50
199.5/37.50/50
3s–4/37.50/50
4s–4/37.50/50
31.5 mm (1¼”)
2s–4/31.50/25
2s–4/AL/31.50/25
199.5/31.50/25
2s–4/31.50/50
2s–4/AL/31.50/50
199.5/31.50/50
3s–4/31.50/50
4s–4/31.50/50
28 mm
2s–4/28.00/25
2s–4/AL/28.00/25
199.5/28.00/25
2s–4/28.00/50
2s–4/AL/28.00/50
199.5/28.00/50
3s–4/28.00/50
4s–4/28.00/50
26.5 mm (1.06”)
2s–4/26.50/25
2s–4/AL/26.50/25
199.5/26.50/25
2s–4/26.50/50
2s–4/AL/26.50/50
199.5/26.50/50
3s–4/26.50/50
4s–4/26.50/50
25 mm (1”)
2s–4/25.00/25
2s–4/AL/25.00/25
199.5/25.00/25
2s–4/25.00/50
2s–4/AL/25.00/50
199.5/25.00/50
3s–4/25.00/50
4s–4/25.00/50
22.4 mm (7/8”)
2s–4/22.40/25
2s–4/AL/22.40/25
199.5/22.40/25
2s–4/22.40/50
2s–4/AL/22.40/50
199.5/22.40/50
3s–4/22.40/50
4s–4/22.40/50
20 mm
2s–4/20.00/25
2s–4/AL/20.00/25
199.5/20.00/25
2s–4/20.00/50
2s–4/AL/20.00/50
199.5/20.00/50
3s–4/20.00/50
4s–4/20.00/50
19 mm (¾”)
2s–4/19.00/25
2s–4/AL/19.00/25
199.5/19.00/25
2s–4/19.00/50
2s–4/AL/19.00/50
199.5/19.00/50
3s–4/19.00/50
4s–4/19.00/50
18 mm
2s–4/18.00/25
2s–4/AL/18.00/25
199.5/18.00/25
2s–4/18.00/50
2s–4/AL/18.00/50
199.5/18.00/50
3s–4/18.00/50
4s–4/18.00/50
16 mm (5/8”)
2s–4/16.00/25
2s–4/AL/16.00/25
199.5/16.00/25
2s–4/16.00/50
2s–4/AL/16.00/50
199.5/16.00/50
3s–4/16.00/50
4s–4/16.00/50
14 mm
2s–4/14.00/25
2s–4/AL/14.00/25
199.5/14.00/25
2s–4/14.00/50
2s–4/AL/14.00/50
199.5/14.00/50
3s–4/14.00/50
4s–4/14.00/50
13.2 mm (0.530”)
2s–4/13.20/25
2s–4/AL/13.20/25
199.5/13.20/25
2s–4/13.20/50
2s–4/AL/13.20/50
199.5/13.20/50
3s–4/13.20/50
4s–4/13.20/50
12.8 mm
2s–4/12.80/25
2s–4/AL/12.80/25
199.5/12.80/25
2s–4/12.80/50
2s–4/AL/12.80/50
199.5/12.80/50
3s–4/12.80/50
4s–4/12.80/50
12.5 mm (½”)
2s–4/12.50/25
2s–4/AL/12.50/25
199.5/12.50/25
2s–4/12.50/50
2s–4/AL/12.50/50
199.5/12.50/50
3s–4/12.50/50
4s–4/12.50/50
11.2 mm (7/16”)
2s–4/11.20/25
2s–4/AL/11.20/25
199.5/11.20/25
2s–4/11.20/50
2s–4/AL/11.20/50
199.5/11.20/50
3s–4/11.20/50
4s–4/11.20/50
11 mm
2s–4/11.00/25
2s–4/AL/11.00/25
199.5/11.00/25
2s–4/11.00/50
2s–4/AL/11.00/50
199.5/11.00/50
3s–4/11.00/50
4s–4/11.00/50
10 mm
2s–4/10.00/25
2s–4/AL/10.00/25
199.5/10.00/25
2s–4/10.00/50
2s–4/AL/10.00/50
199.5/10.00/50
3s–4/10.00/50
4s–4/10.00/50
9.5 mm (3/8”)
2s–4/9.50/25
2s–4/AL/9.50/25
199.5/9.50/25
2s–4/9.50/50
2s–4/AL/9.50/50
199.5/9.50/50
3s–4/9.50/50
4s–4/9.50/50
9 mm
2s–4/9.00/25
2s–4/AL/9.00/25
199.5/9.00/25
2s–4/9.00/50
2s–4/AL/9.00/50
199.5/9.00/50
3s–4/9.00/50
4s–4/9.00/50
8 mm (5/16”)
2s–4/8.00/25
2s–4/AL/8.00/25
199.5/8.00/25
2s–4/8.00/50
2s–4/AL/8.00/50
199.5/8.00/50
3s–4/8.00/50
4s–4/8.00/50
7.1 mm
2s–4/7.10/25
2s–4/AL/7.10/25
199.5/7.10/25
2s–4/7.10/50
2s–4/AL/7.10/50
199.5/7.10/50
3s–4/7.10/50
4s–4/7.10/50
6.7 mm (0.265”)
2s–4/6.70/25
2s–4/AL/6.70/25
199.5/6.70/25
2s–4/6.70/50
2s–4/AL/6.70/50
199.5/6.70/50
3s–4/6.70/50
4s–4/6.70/50
6.3 mm (¼”)
2s–4/6.30/25
2s–4/AL/6.30/25
199.5/6.30/25
2s–4/6.30/50
2s–4/AL/6.30/50
199.5/6.30/50
3s–4/6.30/50
4s–4/6.30/50
5.6 mm (No. 3½”)
2s–4/5.60/25
2s–4/AL/5.60/25
199.5/5.60/25
2s–4/5.60/50
2s–4/AL/5.60/50
199.5/5.60/50
3s–4/5.60/50
4s–4/5.60/50
5 mm
2s–4/5.00/25
2s–4/AL/5.00/25
199.5/5.00/25
2s–4/5.00/50
2s–4/AL/5.00/50
199.5/5.00/50
3s–4/5.00/50
4s–4/5.00/50
2s–4/4.75/25
2s–4/AL/4.75/25
199.5/4.75/25
2s–4/4.75/50
2s–4/AL/4.75/50
199.5/4.75/50
3s–4/4.75/50
4s–4/4.75/50
2s–4/4.00/25
2s–4/AL/4.00/25
199.5/4.00/25
2s–4/4.00/50
2s–4/AL/4.00/50
199.5/4.00/50
3s–4/4.00/50
4s–4/4.00/50
4.75 mm (No. 4)
4 mm (No. 5)
Grain sieves in accordance with PN-ISO 5223
Bar sieves (grids) in accordance with PN-EN 933-3
Mesh size
Ø200 mm × 50 mm
Ø200 mm × 50 mm
Intended use
---------0.70 × 20.00
Plastic frame
PS/0.70 × 20.00/50
Ak alloy frame
PS/AL/0.70 × 20.00/50
---------rape
1.00 × 20.00
PS/1.00 × 20.00/50
PS/AL/1.00 × 20.00/50
1.60 × 20.00
PS/1.60 × 20.00/50
PS/AL/1.60 × 20.00/50
1.70 × 20.00
PS/1.70 × 20.00/50
1.80 × 20.00
Mesh size
---------= 50.00 mm
Ø300 mm × 50 mm
Ak alloy frame
P/3s–4/50.00/50
300 mm × 300 mm
× 75 mm
Aluminum frame
PK/3s–4/50.00/75
all types of grains
= 40.00 mm
P/3s–4/40.00/50
PK/3s–4/40.00/75
rye, barley
= 31.50 mm
P/3s–4/31.50/50
PK/3s–4/31.50/75
PS/AL/1.70 × 20.00/50
triticale, wheat
= 25.00 mm
P/3s–4/25.00/50
PK/3s–4/25.00/75
PS/1.80 × 20.00/50
PS/AL/1.80 × 20.00/50
wheat
= 20.00 mm
P/3s–4/20.00/50
PK/3s–4/20.00/75
1.80 × 25.00
PS/1.80 × 25.00/50
PS/AL/1.80 × 25.00/50
oats
= 16.00 mm
P/3s–4/16.00/50
PK/3s–4/16.00/75
1.90 × 20.00
PS/1.90 × 20.00/50
PS/AL/1.90 × 20.00/50
durum wheat
= 12.50 mm
P/3s–4/12.50/50
PK/3s–4/12.50/75
2.00 × 20.00
PS/2.00 × 20.00/50
PS/AL/2.00 x 20.00/50
wheat
= 10.00 mm
P/3s–4/10.00/50
PK/3s–4/10.00/75
2.20 × 20.00
PS/2.20 × 20.00/50
PS/AL/2.20 × 20.00/50
barley
= 8.00 mm
P/3s–4/8.00/50
PK/3s–4/8.00/75
2.20 × 25.00
PS/2.20 × 25.00/50
PS/AL/2.20 × 25.00/50
malting barley
= 7.20 mm
P/3s–4/7.20/50
PK/3s–4/7.20/75
2.50 × 20.00
PS/2.50 × 20.00/50
PS/AL/2.50 × 20.00/50
wheat
= 6.30 mm
P/3s–4/6.30/50
PK/3s–4/6.30/75
2.50 × 25.00
PS/2.50 × 25.00/50
PS/AL/2.50 × 25.00/50
malting barley
= 5.00 mm
P/3s–4/5.00/50
PK/3s–4/5.00/75
2.80 × 20.00
PS/2.80 × 20.00/50
PS/AL/2.80 × 20.00/50
wheat
= 4.00 mm
P/3s–4/4.00/50
PK/3s–4/4.00/75
2.80 × 25.00
PS/2.80 × 25.00/50
PS/AL/2.80 x 25.00/50
malting barley
= 3.15 mm
P/3s–3/3.15/50
PK/3s–3/3.15/75
3.50 × 20.00
PS/3.50 × 20.00/50
PS/AL/3.50 × 20.00/50
all types of grains
= 2.50 mm
P/3s–3/2.500/50
PK/3s–3/2.500/75
4.00 × 25.00
Ø 1.40
PS/4.00 × 25.00/50
PO/1.40/50
PS/AL/4.00 x 25.00/50
PO/AL/1.40/50
oats
rice grains
Ø 2.80
PO/2.80/50
PO/AL/2.80/50
rape
Ø 3.25
PO/3.25/50
PO/AL/3.25/50
buckwheat
Ø 4.50
PO/4.50/50
PO/AL/4.50/50
corn
Ø 5.00
PO/5.00/50
PO/AL/5.00/50
buckwheat
* sieve diameter corresponding to other manufacturers’ sieves: Impact, Retsch, Fritsch, Controls, Infratest, Emel, Eko-Lab, Haver&Boecker
www.multiserw-morek.pl
5
Measuring devices for foundry engineering
Foundry engineering
Laboratory sieve shaker, type: LPzE-2e
INTENDED USE
The LPzE-2e device is a laboratory sieve shaker
compatible with sieves diameters ranging from 199 to 225
mm. The sieving machine may be used to analyze a
maximum of 1.5 kg of loose material (dry or wet). It is the
smallest electromagnetically driven laboratory sieving
machine manufactured by MULTISERW-Morek. Directly
from the control panel, you can set and save the following
parameters: sieving time as well as interval and amplitude
of vibrations in order to obtain reproducible results of sieve
analyses.
ADVANTAGES
•
•
•
•
memory for 10 programs
low noise level
robust and easy to use
test sieves may be easily changed using a system of
adjustable pulling belts
TECHNICAL CHARACTERISTICS
Sieve working diameter
193 mm
Sieve working height
25 or 50 mm
Sample weight
0–1,500 g
Amplitude (vertical and torsional
vibrations)
0–2.5 mm
Vibration frequency
50 Hz (constant)
Working time – adjustable
0–60 min
Weight
25 kg
Power supply
230 V
CATALOG NAMES
Typical laboratory sieve sets for molding and core sand testing laboratories:
Standard
Laboratory sieve shaker for Ø 100 and 200 mm sieve s
LPzE-2s-ZM1
Sieves cover for dry sieving
LPzE-HB-ZM1
HB sieves c over for dry sieving
LPzE-2s-ZM2
Sieves cover for we t sie ving
LPzE-HB-ZM2
HB sieves c over for wet sieving
LPzE-2/Zs/25
Sieves container for dry sieving (plastic) – low
LPzE-2/Zs/50
Sieves container for dry sieving (plastic) – high
LPzE -2/Zs/A L/25
Sieves container for dry sieving (Ak) – low
LPzE -2/Zs/A L/50
Sieves container for dry sieving (Ak) – high
199,5/Zs
HB sieves c ontainer for dry sieving (Ak)
LPzE -2/Zm /25
Sieves container for we t sieving (plastic) – low
LPzE -2/Zm /50
Sieves container for we t sieving (plastic) – high
LPzE -2/Zm /A L/25
Sieves container for we t sieving (A k) – low
LPzE -2/Zm /A L/50
Sieves container for we t sieving (A k) – high
199,5/Zm
HB sieves c ontainer for w et sieving (Ak)
LPzE-2s-ZM3
La b ora to ry si ev es s et a c c ord i ng to PN
LPzE-2s-ZM4
La b ora to ry si ev es s et a c c ord i ng to DIN
LPzE-2s-ZM5
La b ora to ry si ev es s et a c c ord i ng to G OST
Sieves mesh size in mm
Sieves sets according to PN
Ps cover, 1.60; 0.800; 0.630; 0.400; 0.315; 0.200; 0.160;
0.100; 0.071; 0.056 mm; Zs container
Sieves set according to DIN
Ps cover, 1.40; 1.000; 0.710; 0.500; 0.355; 0.250; 0.180;
0.125; 0.090; 0.063, Zs container
Sieves set according to GOST
6
LPzE-2e
Ps cover; 2.50; 1.60; 1.00; 0.630; 0.400; 0.315; 0.200;
0.160; 0.100; 0.063; 0.050 mm; Zs container
Phone: +48 33 879 21 72
Sieves technical parameters
Diameter: 200 mm
Height: 25 mm
Frame: metal
Woven wire cloth: stainless steel
Measuring devices for foundry engineering
Foundry engineering
LPzB-2e sieving machine
INTENDED USE
The primary use of the LPzB-2e air jet sieving
machine is sieving very lightweight materials
consisting of small particles, which require efficient
dispersion. It can save up to
10 programs with any adjustable values of
parameters: sieving time, interval, vacuum set in
kPa and power value in %. Automatic adjustment of
vacuum ensures reproducible and reliable results.
Moreover, one of the operation modes allows to
perform sieving under vacuum which is manually
adjustable in the range from 0–100% of the device
power.
Advanced design, dependable air distribution
system that uses a rotating nozzle, vacuum
adjustment in automatic or manual mode as well as
compatibility with sieves as high as 25 mm make
the air jet sieving technology even more perfect.
TECHNICAL CHARACTERISTICS
Si ev e w orki ng d i a met er
193 mm
Si ev e w orki ng h ei g ht
25 mm
Sa mp l e wei g ht
0–100 g
W orki ng p res sur e – a d j usta bl e
0–10 kPa
Vi b ra ti on f r eq u en cy – c onsta nt
50 Hz (c onstant)
Ad j usta bl e w or ki ng ti m e
0–60 m in
W ei g ht
approx. 10 kg
Dim e nsions
Ø 270 × 430 m m
Pow er supply
230 V
CATALOG NAMES
LPzB-2e
Ai r j et si ev i ng ma chi ne f or Ø 2 0 0 m m si ev es
LPzB-2e-ZM1
Fil teri ng cov er
LPzB-2e-ZM2
Fil teri ng co nta i ner
Sieves should be ordered as separate items.
The device complies with the requirements of
the following standards:
PN-86/M-94001
Tests
of
molding
sands.
Determining the graining of bentonite.
PN-EN 933-10 Tests of geometric properties of
aggregates. Fine particles content evaluation.
Graining of fillers (sieving in the air stream).
Sound absorbing
cabinets
CATALOG NAMES
INTENDED USE
For many years, MULTISERW-Morek has been
selling sound absorbing cabinets used to reduce
the noise generated during operation of sieve
shakers in laboratory conditions. Drawing on our
experience, we have created cabinets allowing to
limit noise from a few to a several dozen dB
compared to operation in open conditions. Steel
walls with a thickness of 500 mm are filled with a
purpose-designed sound-absorbing foam. At the
Customer’s request, the cabinet’s door may have a
special viewing window which enables the user to
monitor the sieving process.
SzE-2e
dedicate d for LPzE -2e and LPzE -3e sieve shake rs
SzE-4e
dedicate d for LPzE -3e and LPzE -4e sieve shake rs
There is a possibility to build a sound
absorbing cabinet according to the
Customer’s requirements.
CATALOG NAMES
INTENDED USE
MMK
Software
Sieve analysis software
The MMK software is used in laboratories where
sieve analysis tests (fraction distribution analysis)
are conducted. In essence, the program makes it
easier and more efficient to run a test as well as
shortens as much as possible the needed time. At
the same time, it enables its user to store the
obtained measurements, create measurement
series as well as compare and present the data in
the form of reports and graphs.
www.multiserw-morek.pl
7
Measuring devices for foundry engineering
Foundry engineering
Sand sampler
INTENDED USE
The LZ sampler is designed to take sands and molding
sand samples from heaps and landfills.
TECHNICAL CHARACTERISTICS
Capacity
0.9 dm3
Weight
2.5 kg
Dimensions
Ø 50 × 130 cm
CATALOG NAMES
LZ
Sand sampler
Sand binder washer
INTENDED USE
The LSz-2 device is used to elutriate mineral particles
(binder) with a grain size of less than 0.02 mm present in
the molding sands in order to determine their percentage
content.
TECHNICAL CHARACTERISTICS
Speed
2,850 RPM
Beaker capacity
1,000 ml
Power
200 W
Power supply
230 V, 50 Hz
Weight
5 kg
Dimensions
20 × 30 × 70 cm
CATALOG NAMES
8
LSz-2
Sand binder washer
LSz-2/w
LSz-2 device accessories (complete set)
LSz-2-203
Glass beaker
LSz-2-018
Syphon bottle
Phone: +48 33 879 21 72
Measuring devices for foundry engineering
Foundry engineering
Laboratory muller
INTENDED USE
The LM-2e laboratory muller is designed to:
•
prepare molding sand;
•
reduce size of grains and mulling ceramic materials
whose hardness is smaller than 5 on the Mosh scale.
The device is perfect for short but thorough primary or
secondary mixing of the molding sand as well as preparing
synthetic laboratory mixtures.
TECHNICAL CHARACTERISTICS
Maximum bowl filling weight
6 kg
Muller width
70 mm
Head I and II muller weight
11.5 kg
Head III muller weight
30 kg
Pressure adjustment range
115–330 N
Water container capacity
0.3 dm3
Mixing unit rotational speed –
adjustable
30–160 RPM
Power supply voltage
230 V, 50 Hz
Operation mode
manual and automatic
Dimensions
72 × 55 × 120 cm
Mixture weight
180 kg
CATALOG NAMES
LM-2e
Laboratory muller
LM-2e/w
Laboratory muller accessories
LM-2e-019
Water dosing funnel
Laboratory core muller with heating bowl
INTENDED USE
The LM-4e laboratory core muller with heating bowl is
designed to coat (cover) molding sands with resin. The
device is ideal for short but thorough primary or secondary
mixing of the molding sand. In order to obtain the best
coating efficiency, the following equipment has been
installed: a heated bowl with the option to adjust
temperature as well as a purpose-designed mixing head
with a muller unit and scraper blades. One unquestionable
advantage of the device is the bowl inclination adjustment
function that is available while mixing.
TECHNICAL CHARACTERISTICS
Bowl capacity
approx. 6 kg
Rotational speed
30–160 RPM
Operating temperature
adjustable
Power consumption
approx. 3,800 W
Power supply
230 V, 50 Hz
Weight
180 kg
Dimensions
72 × 55 × 100 cm
CATALOG NAMES
LM-4e
Laboratory core muller with heating bowl
www.multiserw-morek.pl
9
Measuring devices for foundry engineering
Foundry engineering
Laboratory intensive mixer with rotating bowl
INTENDED USE
The device is designed to mix various materials (dry or
moist).
It has been equipped with a rotating bowl with a capacity of
18 liters and stainless steel blades. If necessary, the blades
may be adjusted according to the user’s needs.
Advantages:
•
18-liter rotating bowl
•
automatic raising/lowering system of the mixer arm
•
visor allowing to add doses of materials while mixing
•
adjustable rotational speed of the mixer arm
•
adjustable rotational speed of the bowl
•
electronic controller allowing to save mixing programs
•
power supply: 230 V, 50 Hz
•
weight: 120 kg
CATALOG NAMES
LM-3e
Laboratory intensive mixer with rotating bowl
Core sand mixer
INTENDED USE
Being high quality devices for professional laboratory work,
the RN10 mixers stand out from other similar devices
thanks to the implementation of a planetary motion of their
instruments. This unique operation mode involves a motion
of the instrument along the circumference of a stationary
bowl and, at the same time, rotation about its own axis.
The RN10 devices are fitted with energy-efficient engines,
safety switches and clocks that allow to adjust the mixing
time. Stepless rotational speed adjustment for mixing in the
range from 100 to 460 RPM of the instrument. Robustness,
reliability and durability are ensured by a full metal
construction. A direct drive, that eliminates belts and
chains, makes the mixer work more quietly than others.
TECHNICAL CHARACTERISTICS
Rotational speed of the mixer arm – 110–460 RPM
adjustable
Power
750 W
Power supply
230 V, 50 Hz
Weight
110 kg
Dimensions
40 × 70 × 110 cm
CATALOG NAMES
10
RN10
Core sand mixer (10 l)
RN-10P
Core sand mixer (10 l) with mixing blades
adjustment
RN/M10
10-liter stainless steel bowl
RN10/M-001
Mixing blades – flat
Phone: +48 33 879 21 72
Measuring devices for foundry engineering
Foundry engineering
Laboratory rammer – hand drive version
INTENDED USE
The LU-1 hand driven (manual) laboratory rammer is
designed to prepare laboratory profiles from molding
materials for the purpose of testing their strength
properties. Using the accessories (complying with PN, DIN
or GOST as required), it is possible to prepare the following
samples for testing purposes:
•
cylindrical samples to test compressive, shear and
splitting strength;
•
oblong samples to test bending strength;
•
dog bone samples to test tensile strength.
TECHNICAL CHARACTERISTICS
Nominal mass of the weight
6.667 kg (6.350 kg GOST)
Weight drop height
50.3 mm (50.00 mm GOST)
Nominal compaction work
(3 impacts of the weight)
9.80 J (9.34 J GOST)
Weight
45 kg
Dimensions
26 × 40 × 60 cm
CATALOG NAMES
LU-1
La b ora to ry ra m me r – ha nd d riv e v ersi on (P N/ DIN)
LU-1r
La b ora to ry ra m me r – ha nd d riv e v ersi on ( G OST)
LU-1/w
LU-1 ra mm er a c c esso ri es PN/ DIN – c o mp l ete s et
LU-1/w r
LU-1 ra mm er a c c esso ri es G OS T – co mp l ete s et
LU/LUA-ws
Ra mmer bl ock – a wood en ba se f or the ra mmer wi th a b a se plate
Laboratory rammer – automatic drive version
INTENDED USE
The semi-automatic laboratory rammer LUA-2e is designed
to prepare laboratory profiles from molding materials for the
purpose of testing their strength properties. Using
accessories (complying with PN, DIN or GOST as
required), it is possible to prepare the following samples for
testing purposes:
•
cylindrical samples to test compressive, shear and
splitting strength;
•
oblong samples to test bending strength;
•
dog bone samples to test tensile strength.
The LUA-2e device is controlled electrically with the
possibility to perform a set number of repeatable impacts.
Thanks to this, the probability of incorrectly preparing a test
sample is minimized.
TECHNICAL CHARACTERISTICS
Nominal mass of the weight
6.667 kg (6.350 kg GOST)
Weight drop height
50.3mm (50.00 mm GOST)
Nominal compaction work
(3 impacts of the weight)
9.80 J (9.34 J GOST)
Power supply
230 V, 50 Hz
Power
200 W
Weight
48 kg
Dimensions
26 × 40 × 60 cm
CATALOG NAMES
LUA-2e
Laboratory rammer – automatic drive version (PN/DIN)
LUA-2er
Laboratory rammer – automatic drive version (GOST)
LU-1/w
LUA-2e rammer accessories PN/DIN – complete set
LU-1/wr
LUA-2e rammer accessories GOST – complete set
LU/LUA-ws
Rammer block – a wooden base for the rammer with a base plate
LU-1/w
www.multiserw-morek.pl
11
Measuring devices for foundry engineering
Foundry engineering
Digital compactibility tester
INTENDED USE
The LPr-2e device is designed to assess qualitatively the
molding sand used in the technology of molding under high
pressures. The press allows you to:
•
prepare cylindrical profiles by applying a desired
pressure;
•
determine molding sand compactibility under the
2
pressure of 100 N/m ;
•
determine compressive strength under pressures of
up to 500 N/m2.
An additional piece of equipment included in the package is
a device designed to determine the bulk density of molding
sand and loose materials.
The data from the device may be transferred to a PC and
then analyzed using specialist MMRD software.
TECHNICAL CHARACTERISTICS
Profile dimensions
Ø 50 × 50 mm
Compactibility range
20–80%
Maximum pressure
5 MPa (500.0 N/cm )
Compaction rate
20 s or freely adjustable
Oil container capacity
4.2 l
Power
200 W
Power supply
230 V, 50 Hz
Dimensions
30 × 58 × 42 cm
Weight
70 kg
2
CATALOG NAMES
LPr-2e
Di gital comp a cti bility tester
LPr-2e/w
LPr-2 e d evi ce a ccessori es (comp l ete set)
LPr-2e/w1
Gri nd er f or g ri ndi ng d own s a nd
LPr-2e/w2
Bulk d ensity testi ng d evi ce
LPr-2e/w3-004
M ea suring cyli nd er
LPr-2e/w3-001
C yli nd e r b a se use d to m ea s ur e c o mp a cti bil ity
LPr-2e/w3-002
C yli nd e r b a se use d to p r ep a r e p r ofil es
LPr2e/w1
LPr-2e/w2
12
Phone: +48 33 879 21 72
Measuring devices for foundry engineering
Foundry engineering
Digital permeability tester
INTENDED USE
The LPiR-3e device is designed to measure the
permeability of molding materials, e.g. moist, dry or
hardened molding and core sand as well as quartz sands,
etc. The device has been equipped with RS232 interface
for the purpose of transferring data to a PC in order to
record, archive or further edit them with the use of
specialist MMRD software.
TECHNICAL CHARACTERISTICS
Sample dimensions
Ø 50 × 50 mm
Working pressure
980 Pa (100 mm H2O)
Measuring range expressed
in permeability units (10-8
m/Pa s)
2–80 permeability units for a Ø 0.5
mm nozzle
70–4,000 permeability units for a Ø
1.5 mm nozzle
Dimensions
42 × 32 × 26 cm
Power supply
230 V, 50 Hz
Weight
17 kg
LPiR-3e /w 1
CATALOG NAMES
LPiR-3e
Di gita l p er m ea b ili ty tester
LPiR-3e / w 1
C yli nd e r us ed to d eter mi ne th e p er m ea b ili ty of d ry sa mp l es
LPiR-3e / w 2
Ad a p ter use d to d eter mi ne the p er m ea b ili ty of sa nd
ca sti ng s
LPiR-3e / w 3
LPi R-3 e d ev i ce a c c ess ori es (i nstrum e nts used to c o mp a r e the r esul ts
to a sta nd a rd )
LPiR-3e / w 4
C a li b ra ti on ki t
LPiR-3e /w 3
Digital wet tensile strength testing machine
INTENDED USE
The LRP machine is used to determine tensile strength in
the over-moisture zone, i.e. wet tensile strength. The
device has been equipped with a data transfer interface for
the purpose of transferring data to a PC in order to record,
archive or further edit them with the use of specialist
MMRD software.
TECHNICAL CHARACTERISTICS
Stress measuring range
0–999.0 N/cm2
Heating temperature
100.0–350.0 °C
Heating time
0–9.50 min
Power
approx. 500 W
Power supply
230 V, 50 Hz
Dimensions
30 × 35 × 60 cm
Weight
20 kg
CATALOG NAMES
LRP
Digital wet tensile strength testing machine
LRP/w
LRP machine accessories – complete set
LRP/K
Calibration kit
www.multiserw-morek.pl
13
Measuring devices for foundry engineering
Foundry engineering
INTENDED USE
Universal strength testing
machine
The LRu-2e machine is designed to test the strength of
moist, dry or hardened laboratory profiles made of molding
and core sand. Measuring range: 0–3,360 N/cm². The
machine can be used to measure the following properties:
compressive, shear, splitting, double share, tensile and
bending strength as well as the flexion angle. The data
from the machine may be transferred to a PC and then
analyzed using specialist MMRD software.
NOTICE
A special instrument dedicated for the LRu-2e machine is
the LRuW adapter used to measure tensile strength of
moist molding sand. Measuring range: 0–3.3 N/cm².
TECHNICAL CHARACTERISTICS
Drive
electric
Control
semi-automatic
Pressure increase rate
linear: 0.25 N/cm2
Dimensions
78 × 29 × 30 cm
Power
approx. 100 W
Power supply
230 V, 50 Hz
Weight
86 kg
MEASURING RANGES
Compression
Standard
RcI sup p ort B
0–22.40 N /c m
RcII sup p ort A
10 –67.20 N /c m
RcIII sup p ort R
30 –200 N /c m
2
2
PN /E N /D IN /GOST
2
Shear
Standard
RtI sup p o rt B
0–17.4 N /c m
RtII sup p ort A
10 –52.60 N /c m
RtIII sup p ort R
30 –156 N /c m
2
2
PN /E N /D IN /GOST
2
Bending
Rg 1 sup p ort B
Standard
2
Rg 2 sup p ort A
0–870 N /c m
500–2,640 N /c m 2
Rg S sup p ort D
0–3,300 N /c m
2
Rg 7 sup p ort B
0–3,300 N /c m
2
Rg S 7 sup p o rt D
0–1,300 N /c m
2
Rg 8 sup p ort B
0–2,500 N /c m
2
Rg S 8 sup p o rt D
0–1,000 N /c m
2
Rg 1 G sup p o rt B
0–705 N /c m
Rg 2 G sup p ort A
500 –2,100 N /c m
PN /E N /D IN
2
Do uble s he ar
Standard
RtI sup p o rt B
0–11.20 N /c m
2
RtII sup p ort A
5–33.60 N /c m
2
RttIII sup p ort R
LRu-2 e/ w
10 –100 N /c m
Splitting
Standard
0–17.4 N /c m
Rp II sup p ort A
10 –52.60 N /c m
2
30 –156 N /c m
0–130 N /c m
RmII sup p ort E
80 –260 N /c m
0–105 N /c m 2
2
80 –210 N /c m
We t te ns ile s tre ngth
2
2
RmIIG sup p ort E
LRu-2e
Universal strength testing machine (PN/DIN)
LRu-2er
Universal strength testing machine (GOST)
LRu-2e/w
LRu-2e machine (PN/DIN) accessories – complete set
LRu-2e/wr
LRu-2er machine (GOST) – complete set
LRu-K
Calibration kit
LRuW
Adapter used to measure tensile strength of moist molding
sand
Rm w sup p ort P
Phone: +48 33 879 21 72
0–3.3 N /c m
PN /E N /D IN /GOST
Standard
RmI sup p ort F
RmIG s up p ort F
CATALOG NAMES
2
2
Tensile strength
14
PN /E N /D IN /GOST
2
Rp I sup p ort B
Rp III sup p ort R
GO ST
2
2
PN /E N /D IN
GO ST
Standard
PN /E N /D IN /GOST
LRuW
Measuring devices for foundry engineering
Foundry engineering
Universal strength testing machine
INTENDED USE
The LRuE-2e machine is designed to test strength
properties of standardized samples of moist, dry or
chemically hardened molding and core sand in accordance
with PN 83 H-11073/EN, GOST. The data from the
machine may be transferred to a PC and then analyzed
using specialist MMRD software.
TECHNICAL CHARACTERISTICS
Drive
electric
Control
semi-automatic
Pressure increase rate
linear: 0.25 N/cm2
Dimensions
78 × 40 × 60 cm
Power
100 W
Power supply
230 V, 50 Hz
Weight
150 kg
MEASURING RANGES
RcI
Compression
0–7.5 N/cm 2
RcII
5.4–15.0 N/cm 2
RcIII
9.0–75.0 N/cm 2
RcIV
54.0–150.0 N/cm 2
RcV
90.0–250.0 N/cm 2
RcVI
Standard
PN/EN/DIN/GOST
180.0–500.0 N/cm 2
Shear
RtI
0–6.0 N/cm 2
RtII
4.5–12.0 N/cm 2
RtIII
9.0–60.0 N/cm 2
RtIV
45.0–120.0 N/cm 2
RtV
90.0–200.0 N/cm 2
RtVI
RgI
Standard
PN/EN/DIN/GOST
150.0–400.0 N/cm 2
Bending
0.0–300.0 N/cm 2
Standard
RgII
225.0–600.0 N/cm 2
RgIII
450.0–3,000.0 N/cm 2
RgIV
2,250.0–6,000.0 N/cm 2
RgIG
0.0–215.0 N/cm 2
RgIIG
100.0–430.0 N/cm 2
RgIIIG
200.0–2,150.0 N/cm 2
RgIVG
LRuE-2e /w
GOST
400.0–4,300.0 N/cm 2
Tensile strength
RmI
0–100.0 N/cm 2
RmII
75.0–200.0 N/cm 2
RmIII
90.0–250.0 N/cm 2
RmIV
180.0–500.0 N/cm
Rmw
PN/EN/DIN/GOST
Wet tensile strength
0–3.3 N/cm 2
Standard
PN/EN/DIN/GOST
2
Standard
PN/EN/DIN/GOST
CATALOG NAMES
LRuE-2e
Universal strength testing machine (PN/DIN)
LRuE-2er
Universal strength testing machine (GOST)
LRuE-2e/w
LRuE-2e machine (PN/DIN) accessories – complete set
LRuE-2e/wr
LRuE-2e machine (GOS T) accessories – complete set
LRu-K
Calibration kit
LRuW
Adapter used to measure tensile strength of moist
molding sand
www.multiserw-morek.pl
15
Measuring devices for foundry engineering
Foundry engineering
Gas volume tester
INTENDED USE
The device has been manufactured in accordance with the
requirements of the BN-76/4005 standard. It consists of a
furnace with a quartz reactor and a measuring kit with a
burette (filled with water) calibrated at 1 ml steps as well as
a surge vessel with a comfortable to use position
adjustment mechanism. The furnace has been equipped
with a precise, electronic temperature control which makes
it possible to adjust and maintain a given temperature
independently of the ambient temperature (+/–5 ºC, up to
1,100 ºC). The volume of emitted gases is determined in
the atmosphere of carbon dioxide whose flow is regulated
with a valve connected to a rotameter. The device has
been equipped with a gas cleaning and drying system and
the 3-way valves allow to purge the working space before
making a measurement.
Advantages:
•
robust and easy to use
•
high reproducibility of measurements
•
short measuring time
•
high precision of temperature distribution and adjustment
CATALOG NAMES
Vibrating table for preparing samples from selfhardening core sand
PR-45/1200MM
Gas volume tester
INTENDED USE
The LUZ-2e device is designed to prepare standardized
laboratory, cylindrical, dog bone and oblong samples from
loose, self-hardening molding and core sand, which is used
to
determine
the
following
strength properties:
compressive, shear, tensile, bending, permeability,
abrasibility of the sag and others. The device allows to
prepare simultaneously from 5 to 12 samples with identical
degree of compaction.
TECHNICAL CHARACTERISTICS
Compaction time
adjustable (0–30 s)
Vibration amplitude
adjustable (0–1.5 mm)
Vibration frequency
50 Hz
Power
400 W
Power supply
230 V, 50 Hz
Dimensions
34 × 32 × 33 cm
Weight
LUZ-2e
25 kg
Vib rati ng ta bl e f or p repa ri ng sa mpl es f rom self-ha rd eni ng core sa nd
CATALOG NAMES
Mounting fra me (small)
dedica ted for the LUZ-2e/ZM1, ZM2, ZM3, ZM4
a ccessories
16
Mounting fra me (la rge)
dedica ted for the LUZ2e/ZM6, ZM7 a ccessories
LUZ-2e/ZM1
Accessori es f or prep a ri ng cyli nd ri cal sa mpl es
LUZ-2e/ZM2
Accessori es f or prep a ri ng d og b one sa mpl es
LUZ-2e/ZM4
Ac c ess ori es f or p r ep a ri ng ob l o ng sa mp l es (5 p i ec es)
LUZ-2e/ZM9
Mounting frame (small) de dic ated for the LUZ-2e /ZM1, ZM2, ZM3,
ZM4, ZM5 acce ssories
LUZ-2e/ZM6
Ac c ess ori es f or p r ep a ri ng ob l o ng sa mp l es (1 2 p i ec es)
LUZ-2e/ZM8
M o unti ng f ra m e (l a rg e) d ed i ca t ed f or the L UZ-2 e/ ZM 6 , ZM 7 a c c ess ori es
LUZ-2e/ZM3
Ac c ess ori es f or p r ep a ri ng d og b on e sa mp l es ( G OST)
LUZ-2e-ZM5
Ac c ess ori es f or p r ep a ri ng ob l o ng sa mp l es (5 p i ec es) ( G OST)
LUZ-2e-ZM7
Ac c ess ori es f or p r ep a ri ng ob l o ng sa mp l es (1 2 p i ec es) ( G OST)
Phone: +48 33 879 21 72
Measuring devices for foundry engineering
Foundry engineering
Resin coated sand softening point tester
INTENDED USE
The LTM-3e device is designed to determine the softening
point temperature of resin coated sands. The softening
point temperature determines the usability of tested sand
for mold and core forming purposes using the shell molding
method.
The data from the device may be transferred to a PC and
then analyzed using specialist MMRD software.
TECHNICAL CHARACTERISTICS
Temperature range
60–120 °C
Accuracy
+/–1 °C
Heating time – adjustable
0–9.50 min
Sand blow-through pressure – adjustable
0–6 bar
Power supply
230 V, 50 Hz
Weight
approx. 40 kg
Dimensions
90 × 35 × 40 cm
CATALOG NAMES
LTM-3e
Resin coated sand softening point tester
Universal hot-distortion and bending strength
machine
INTENDED USE
The LRu-DMA machine allows to conduct the following
types of tests:
•
Studying high-temperature phenomena in sand
molded casting cores (hot-distortion).
•
Testing sand bending strength using the COLD-BOX,
Croning and CO2 technologies.
The machine allows to save up to 200 measurements and
calculate a mean from a series of measurements. It is
possible to connect a printer to it which can, apart from
recording the results, record the graph showing the
evolution of bending until a breaking point has been
reached. The machine has been equipped with a data
transfer interface for the purpose of transferring data to a
PC in order to record, archive or edit them further.
TECHNICAL CHARACTERISTICS
Heating temperature
100.0–990.0 °C
Heater power
range: 10–100 %
Heating time limit
range: 1–60 min
Power supply
230 V, 50 Hz
Weight
15 kg
Dimensions of a profile used to measure distortion and
bending strength:
•
2.50 × 0.60 cm – 1.50 cm2
•
2.24 × 2.24 cm – 5.00 cm2
•
2.24 × 0.70 cm – 1.57 cm2
Bending strength measuring range: 0–14 MPa
Sample heating modes:
•
set temperature – heating from the top
•
set temperature – heating from the bottom
•
set power – heating from the bottom
•
set power – heating from the top
•
heating from the bottom
CATALOG NAMES
LRu-DMA
Universal hot-distortion and bending strength
machine
www.multiserw-morek.pl
17
Measuring devices for foundry engineering
Foundry engineering
Universal core shooter (core blower)
in Hot-box, Cold-box, Inorganic and CO2
technologies
INTENDED USE
The LUT machine is designed to prepare test samples and
small cores by means of the Hot-box, Cold-box, CO2 and
Inorganic technologies.
In order to start the formation of
²
samples, simply connect the machine to the mains and a
compressed air system. The presented series of automatic
shooters is characterized by a small and compact design.
The machine is versatile and easy to use, since its
operation does not require the presence of qualified staff.
All its components, i.e. electronic control panel, control
cabinets, working chamber and gas dosing device are
integrated to form a unified, modular network, which makes
it easier to use the machine.
Advantages:
•
integrated, modular design
•
it is possible to use the Hot-Box, Cold-Box, Inorganic
and CO2 technologies
•
shot capacity ranging between 1 and 2.5 l
•
compact design does not take up much space while in
operation
•
it is possible to mount the machine on a laboratory
table or on a purpose-designed mobile table with
levelling function
•
low energy consumption
•
intuitive, easy to use control system
•
wide range of accessories, including in particular core
boxes for the production of test samples to test
bending, compressive and tensile strength
•
it is possible to customize the machine to specific
requirements of the Customer
•
good price
•
low operating costs.
Do not wait and contact us today to get specific information
on the machine, its accessories, prices and terms of
delivery!
TECHNICAL CHARACTERISTICS
Operating temperature
100–355 °C
Shot time
0.1–20 s
Heating time
0–600 s
Working pressure – adjustable
0.4–0.6 MPa
Heaters power
2 × 1.5 kW
Mold and feeder components’
drive
Power supply
pneumatic
Dimensions
60 × 125 × 90 cm
Weight
225 kg
230/380 V
CATALOG NAMES
LUT
Universal core shooter (core blower) in Hot-Box,
Cold-Box, Inorganic and CO2 technologies
LUT-ZM1
Mobile table with levelling system
LUT/G
18
Phone: +48 33 879 21 72
Measuring devices for foundry engineering
Foundry engineering
CATALOG NAMES (ACCESSORIES)
HOT-BOX/CRONING
OBLONG SAMPLES
DOG BONE SAMPLES
ø 50 mm SAMPLES
LUT/R-ZM1 – 22.4 × 22.4 mm core box LUT/R-ZM2 – 7 × 22.4
mm core box
LUT/R-ZM5 – 22.4 × 22.4 mm core box with a heating panel
LUT/R-ZM6 – core box
LUT/R-ZM13 – core box (GOST)
LUT/R-ZM8 – core box
LUT/ZTS-ZM1 – sand storage container
LUT/ZTS-ZM8 – sand storage container
LUT-ZM4-001 – panel blowing gas through
LUT/ZTS-ZM5 – sand storage container
LUT-ZM4-003 – panel blowing gas through
COLD-BOX / CO2
OBLONG SAMPLES
DOG BONE SAMPLES
ø 50 mm SAMPLES
LUT/R-ZM3 – 22.4 × 22.4 mm core box LUT/R-ZM4 – 7 x22.4
mm core box
LUT/R-ZM7 – core box
LUT/R-ZM14 – core box (GOST)
LUT/R-ZM9 – core box
LUT/ZTS-ZM2 – sand storage container
LUT/ZTS-ZM9 – sand storage container
LUT/ZTS-ZM6 – sand storage container
LUT-ZM4-001 – panel blowing gas through
LUT-ZM4-003 – panel blowing gas through
LUT/G – gas dosing device
INORGANIC
OBLONG SAMPLES
DOG BONE SAMPLES
ø 50 mm SAMPLES
LUT/R-ZM1 – 22.4 × 22.4 mm core box LUT/R-ZM2 – 7 × 22.4
mm core box
LUT/R-ZM5 – 22.4 × 22.4 mm core box with a heating panel
LUT/R-ZM6 – core box
LUT/R-ZM13 – core box (GOST)
LUT/R-ZM8 – core box
LUT-ZTS-ZM3 – sand storage container
LUT-ZTS-ZM10 – sand storage container
LUT-ZM4-002 – panel blowing gas through
LUT-ZTS-ZM7 – sand storage container
LUT-ZM4-004 – panel blowing gas through
LUT/MA – e xternal module for LUBER gas dosing device
LUT/WA – hose with a heater
www.multiserw-morek.pl
19
Measuring devices for foundry engineering
INTENDED USE
Foundry engineering
High temperature muffle furnace is used to determine the
extent of loss during calcination of cement and building
lime. Max. temperature: 1,100 or 1,300 °C.
High precision electric furnaces designed to conduct
thermal analysis work. The furnaces are equipped with
doors opening to the left or to the bottom. They may be
used in scientific laboratories, teaching institutions,
medicine and industry.
Muffle furnace EN 196-2
ADVANTAGES
•
working chamber made of thermoinsulating material,
ceramic fiber
•
four-side heating up
•
switch protecting the door
•
ceramic bottom plate
•
microprocessor-based thermoregulator
•
short heating up time
•
tightly closed door
•
low energy consumption
•
high level of precision
•
compatible with a PC
TECHNICAL CHARACTERISTICS
Maximum operating temperature
1,100 ºC
Chamber capacity
8.2 l
Working chamber dimensions (width ×
length × height)
Power supply
1,300 ºC
7.2 l
20 × 30 × 13.5 cm
230 V, 50 Hz
Power
1,800 W
3,800 W
Weight
33 kg
105 kg
CATALOG NAMES
SNOL8,2/1100
Muffle furnace EN 196-2
SNOL7,2/1300
Muffle furnace EN 196-2
PR-45-206
Ceramic pot (sampling boat)
PR-45-207
Ø 35 × 38 mm ceramic tray
PR-45-208
Ø 40 × 25 mm ceramic tray
30.355.303.35
Laboratory pliers
491.04.1101
Protective gloves, heat-resistant (3 fingers)
Molding sand peel measuring device
INTENDED USE
The molding sand peel measuring device is designed to
measure how much the surface of molding sand peels off
when subjected to the action of temperature in order to
evaluate the quality of a binder.
Advantages:
•
electronic control with automatic press cycle
•
temperature control in the range from 0 to 160 °C
•
roll rotation adjustment
•
working time adjustment in the range from 0 to 60 min
•
precise weighing system with a precision of 0.001 g
•
precise heating system
•
measurement result is displayed after the completion of
a working cycle (%)
CATALOG NAMES
LS-2e
20
Phone: +48 33 879 21 72
Molding and core sand peel measuring device
Measuring devices for foundry engineering
Laboratory scales
Laboratory scales – PS series (internal calibration)
INTENDED USE
The PS scales have a 12-key control panel and a backlit
LCD or a graphic touch display. Their scale pans’
dimensions are 128 × 128 and 195 × 195 mm. The scales
with a 128 ×128 mm scale pans are equipped with glass
shields protecting the loads being weighed against any
possible airflows. The scales have an internal calibration
system. As standard equipment, each scale has RS232
interface and allows to connect an additional display.
The GLP control procedure for these scales is presented in
the form of a scale calibration report and this cannot be
modified. The scales can also weigh loads outside the
scale pan, i.e. under the scale pan, as the load is
suspended under the scale itself. It is an alternative used in
the case of loads with non-standard dimensions and
shapes as well as those generating a magnetic field. This
weighing method is also used when determining the
density of bodies. Please contact our Sales Department
to get accurate information on prices: phone 33 8792
172.
Laboratory scales – WLC and WLC/A2 series (internal
calibration)
INTENDED USE
The WLC scales are designed for fast and accurate
measurement of weight in laboratory and industrial
conditions. They may also be used in places where there is
no 230 V mains, since all of them have been factoryequipped with an internal battery and RS232 interface. All
scales types (scale pan: 125 × 145, 128 × 128, 195 × 195,
290 × 360 and 400 × 500 mm) have scale pans made of
stainless steel and backlit LCDs, ensuring good readability
of results. The A2 scales can weigh loads outside the scale
pan, i.e. under the scale pan, as the load is suspended
under the scale itself. It is an alternative used in the case of
loads with non-standard dimensions and shapes as well as
those generating a magnetic field. This weighing method is
also used when determining the density of bodies.
The scales are certified in two stages (internal calibration
not available). It is necessary to calibrate them in the place
of use due to the effects of gravitational acceleration.
The cost of the second stage of certification is not included
in the price and depends on the place of use of a scale.
Please contact our Sales Department to get accurate
information on prices: phone 33 8792 172.
www.multiserw-morek.pl
21
Measuring devices for foundry engineering
Laboratory moisture analyzers
Laboratory moisture analyzers – MAX series
INTENDED USE
A moisture analyzer is a laboratory measuring device
designed to determine the relative moisture content in
small samples of various materials. The MA.R series sets
new standards for moisture analyzers.
The moisture analyzers have been equipped with a new
and easy to read LCD which has a new information text line
allowing to display additional messages and information,
e.g. name of the goods or tare value. Additionally, by
displaying symbols, the moisture analyzers indicate the
active operation mode, connection to a PC as well as
weighing and service functions.
The MA.R moisture analyzers have been equipped with
many communication interfaces: RS 232, USB-A, USB-B
and optionally WiFi. The scale body is made of plastic.
DATABASES IN R SERIES MOISTURE ANALYZERS
In the case of the R series moisture analyzers, the
information system has been based on 6 databases which
allow many users to work with many goods and optionally
further analyze the measurements stored in a database.
Data are stored in 6 databases:
•
users’ (up to 100 users)
•
goods’ (up to 1,000 items)
•
weighing (up to 1,000 weighing procedures)
•
tare’s (up to 100 tare entries)
•
drying programs’ (up to 100 programs)
•
drying reports’ (up to 1,000 reports).
Data exchange in the system is carried out in two directions
through USB interface. The MA.R moisture analyzers allow
to import and export databases using external flash drives
(pendrives).
Advantages of the MA.R moisture analyzer:
•
large, backlit LCD
•
simple, intuitive use
•
drying profiles (standard, mild, stepped and fast)
•
completion of the drying process modes (automatic,
time-controlled, manual)
•
GLP/GMP report printouts
•
reproducible and non-standard applications
•
operation optimization thanks to halogen lamps.
TECHNICAL CHARACTERISTICS
M axi mum l oa d [M ax]
110 g
M ea surement a ccura cy [d ]
1 mg
Ta re r a ng e
–110 g
Weighing pan dimensions
ø 90, h = 8 mm
Pow er supply
230 V, 50 Hz, A C
Display
LC D (b a ckli t)
Inte rfac es
1 × RS 232, USB-A , USB-B, WiFi (option)
Pa cka g e di mensi ons
470 × 380 × 336 m m
Net weig ht
4.9 kg
Gr oss wei g ht
6.4 kg
M a xi mu m sa mp l e w ei g ht
110 g
M oi sture mea surement a ccura cy
0.001 %
Rep r od uci b ility of m oi sture
m eang
surtee me
Dryi
mpnts
era tur e ra ng e
+/– 0.05 % (approx. 2 g sam ple ), +/– 0.01 % (approx. 10 g
sam ple
max.
160) °C
M a xi mu m h ei g ht of tested sa mp l e
h = 20 mm
H ea ti ng el em ent
inf rared radi ator
MA50/1.R
Moisture analyzer (50 g)
Dryi ng m eth od
4 d ryi ng p rofil es (sta nd a rd , f a st, step p ed a n d mil d )
MA50.R
Moisture analyzer (50 g)
Dryi ng compl eti on opti ons
4 mod es (ti m e-c ontr oll ed , us er-d ef i ned , a uto ma ti c a nd ma nua l )
MA110.R
Moisture analyzer (110 g)
Ad diti onal f uncti ons
sa mpl e i d entifi ca ti on
MA210.R
Moisture analyzer (210 g)
22
The maximum load of the moisture analyzer ranges from
50 g/0.1 mg to 210 g/1 mg. The moisture content is
measured with an accuracy of 0.01 % (0.001 % for
samples over 1.5 g). The maximum sample drying
temperature is 160 °C (a moisture analyzer capable of
drying at 250 °C is optionally available).
An additional equipment that extends the functionality of
the moisture analyzers is a purpose-designed kit for testing
the permeability of water vapor, which is used, among
other applications, in the tanning industry to determine the
hygienic properties of leather.
CATALOG NAMES
Phone: +48 33 879 21 72
Measuring devices for foundry engineering
Drying ovens
Laboratory ovens with natural
air circulation
INTENDED USE
Drying ovens are laboratory equipment capable of
maintaining a higher temperature in their chambers
than the ambient temperature (max. 300 ºC).
INTENDED USES
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
drying aggregates and sands
thermal resistance analysis of building materials
testing electronic and electrical components,
etc.
monitoring properties of products subjected to
high temperature
drying wires of papermaking machines
drying laboratory glass
general aging and curing
ordnance material testing
preheating
vulcanization studies
agricultural genetics
digestion of proteins
drying plant tissues
metabolism of drugs
paper drying
serum protein analysis
suspended solids testing
and other applications
Laboratory ovens with forced air
circulation
Technical Characteristics of Laboratory Ovens
Parameters
SLN 53 STD
SLW 53 STD
Capacity (l)
56
112
245
424
749
Temperature range (°C)
0–300
0–300
0–300
0–300
0–300
External dimensions (mm)
W
D
H
590
560
690
650
650
835
815
710
1,140
1,020
710
1,385
1,255
810
1,620
395
360
395
1,600
460
450
540
2,400
600
510
800
3,000
800
510
1,040
3,900
1,040
600
1,200
5,400
Temperature stability
±0.3
±0.3–0.5
±0.4–0.5
±0.5–0.7
±0.5–0.6
Temperature homogeneity
±0.1–0.7
±0.2–0.8
±0.2–0.9
±0.3–1.6
±0.3–1.8
Electronic controller
yes
yes
yes
yes
yes
Start delay function
yes
yes
yes
yes
Power supply
230 V, 50 Hz
230 V, 50 Hz
230 V, 50 Hz
Weight (kg)
50
65
126
Chamber dimensions (mm)
W
D
H
Rated power (W)
SLN 115 STD
SLW 115 STD
SLN240 STD
SLW240 STD
www.multiserw-morek.pl
SLW400 STD
380 V, 50 Hz
174
SLW750 STD
yes
380 V, 50 Hz
174
23
Among other products, our offer
includes:
GROUND
Static VSS-1P-000 plate to
test the bearing capacity
and density of the ground
AGGREGATES
Air jet sieving machine
(PN-EN 933-10)
CONCRETE
Automatic 2,000 kN and
3,000 kN concrete testing
press (PN-EN 12390-4)
LABORATORY SIEVES AND
SIEVE SHAKERS
(IS0-3310-1 and 3310-2)
MOLDING AND CORE SAND
TESTING EQUIPMENT
LRP machine designed to test wet
tensile strength
CEMENT
Vicata device
(PN-EN 196-3)
ASPHALT (MMA)
Automatic Marshall Rammer
(PN-EN 12697-30)
Marcyporęba 36 | 34-114 Brzeźnica | Poland
+48 33 879 21 72 | +48 33 879 28 21
+48 502 027 268 | +48 512 231 248
morek@muItiserw-morek.pl
www.muItiserw-morek.pl