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Specification Sheet
U-VIsc automated viscometry systems
v3.02
v3.02 / September 12th, 2014 Page 2 of 13 Coenecoop 715 • 2741 PW Waddinxveen, The Netherlands • Tel: +31-(0)182-302990 • Fax :+31-(0)182-302999
Email: info@omnitek.nl www.omnitek.nl Chamber of Commerce nr: 50007858
Specification Sheet
Product description – Omnitek U-VIsc series Compact, high throughput automated viscometer
The Omnitek U-VIsc is the next generation of
completely automated viscometry systems. The system combines several unique features, making it the instrument of choice in many applications, ranging from QC to R&D to used oil analysis. While offering full compliance with ASTM D445/446, the specially designed viscometer tubes cover a 100-fold range, e.g. from 1 to 100 mm2/s. The tubes are based on the well-known and proven Ubbelohde design, but only require 8-10 ml. of sample and approx. 10-12 ml. of solvent for cleaning. Available with single or dual solvent cleaning, the instrument measures kinematic viscosity in Newtonian fluids like lubricants, fuels or dissolved plastics between 0.5 and 10,000 mm2/s. Omnitek U-VIsc 220 is fitted with two independent baths, each containing 2 viscometer tubes. This allows for choice of 2 equal viscometers for high throughput, or 2 different ones, allowing for high versatility. Sophisticated temperature control ensures that measurements are carried out well within limits specified by ASTM D445. Each bath features a 32-position sampling tray (16 samples per tube), allowing completely unattended operation. Depending on the viscosity of the sample, the instrument can process up to 40 measurements per hour, satisfying even the needs of high volume labs running several hundred samples per day. Samples can be introduced via either suction or pressure. The latter avoids evaporation of sample, which can be a point of concern in some dilute viscosity applications. Viscometers are easily exchanged in minutes instead of hours, minimizing downtime. All surfaces of the viscometer, including the outside bottom, which is in contact with the sample, are thoroughly cleaned and dried using solvents and air. Omnitek U-VIsc requires a PC for operation (not included) but can also be controlled through the advanced color touch screen interface (200 series only). For data collection, storage, calculations and reporting, an advanced PC application is provided with the instrument, which can gather data from up to 4 instruments simultaneously.
Safety Safety was a primary concern throughout the design of the U-VIsc series. Many precautions have been taken. Every movement of the sample carrousel, cylinders and sample table is verified by accurate sensors. Additionally, bath over-temperature cut-offs, bath level detection and emergency stop safeties have been implemented. U-VIsc is built from highest standards of mechanical parts. It has ultimate chemical resistance towards most common used fluids and solvents like petroleum ether, kerosene, toluene, acetone, MEK, phenol, cresol, o-chlorophenol, chlorobenzene, trichloroacetic acid, 90% formic acid and glacial acetic acid.
v3.02 / September 12th, 2014 Page 3 of 13 Coenecoop 715 • 2741 PW Waddinxveen, The Netherlands • Tel: +31-(0)182-302990 • Fax :+31-(0)182-302999
Email: info@omnitek.nl www.omnitek.nl Chamber of Commerce nr: 50007858
Specification Sheet
Versions
Omnitek U-VIsc is available in four different models
Version Independent
baths Viscometer tubes / bath
Autosampler Max. capacity
per hour *)
U-VIsc 110 1 1 16 positions 10 meas.
U-VIsc 120 1 2 16 positions /
tube 20 meas.
Dimensions Weight
375 x 588 x 693 (width x depth x height) 42 kg (empty)
TS option The standard 100 series is not equipped with a touch screen, but it is optionally available.
Version Independent
baths Viscometer tubes / bath
Autosampler Max. capacity
per hour *)
U-VIsc 210 2 1
16 positions / tube
20 meas.
U-VIsc 220 2 2 16 positions
/ tube 40 meas.
Dimensions Weight
760 x 588 x 693 (width x depth x height) 92 kg (empty)
*) Measurements per / hour ; depends on viscosity, tube, temperature and solvents chosen
U-VIsc series features
Applicable for fuels, base oils, formulated oils, and other petrochemical fluid chemicals as well as diluted polymers
Meets all ASTM, EN, ISO and DIN standards related to kinematic viscosity and diluted solution viscosity standards
Extremely accurate temperature control
Extremely accurate flow-time measurement independent of fluid type
Viscometer filling by either vacuum or pressure method
Little sample volume / little solvent consumption
High capacity; up to 10 measurements per bath per tube per hour
Innovative viscometer tube cleaning allowing cross contamination free operation
Easy viscometer tube exchange
Suitable for petrochemical fluids and diluted solution viscosity samples
Chemically resistant to an extended range of fluids and solvents
Multiple versions available covering a wide variety of requirements
Compact design
v3.02 / September 12th, 2014 Page 4 of 13 Coenecoop 715 • 2741 PW Waddinxveen, The Netherlands • Tel: +31-(0)182-302990 • Fax :+31-(0)182-302999
Email: info@omnitek.nl www.omnitek.nl Chamber of Commerce nr: 50007858
Specification Sheet
Temperature control Temperature control, which is crucial to enable reliable viscosity measurement, is extremely tight. Omnitek U-VIsc surpasses ASTM and ISO standards with temperature stability of ± 0.005 °C @ 40°C and ± 0.01°C @ 100°C. The temperature can be easily changed using an intuitive dial knob on the front panel. The instrument is calibrated at 1 temperature (per bath) of the customer’s choice.
U-VIsc series specifications
Feature U-VIsc 110 / 120 / 210 / 220
Measuring range 0.5 – 10,000 mm2/s @ 40°C *)
Temperature range 20 – 110 °C (150 °C option)
Temperature stability ±0.005 °C @ 40°C, ±0.01°C @ 100°C
Timer accuracy 0.005 s
Sample volume 8 ml / 16 ml (single / double)
Sample introduction Vacuum / Pressure
Solvent consumption 10 - 12 ml per cycle / 12 - 15 ml per cycle (single / double)
Sample throughput
U-VIsc 110 : up to 10 measurements per hour U-VIsc 120 : up to 20 measurements per hour U-VIsc 210 : up to 20 measurements per hour U-VIsc 220 : up to 40 measurements per hour
Applicable standards ASTM D445, D446, D2270, ASTM D789, ASTM D1243, ASTM D2857 , ASTM D3591, ASTM D4603, ASTM D4878, ISO3104, ISO3105, EN ISO 1628, ISO 2909, EN ISO 307, DIN 51562,DIN 53728, DIN 53727, DIN 7744, DIN 7745
Dimensions / Weight U-VIsc 110 / 120: 38 x 62 x 78 cm ( w x d x h) / 42 kg (empty) U-VIsc 210 / 220: 75 x 62 x 78 cm (w x d x h) / 92 kg (empty)
Viscometer type Modified Ubbelohde
Sensor type Thermal / Optical
Communication RS-232C
*) Please consult us for optimal tube selection and flow times
U-VIsc series site requirements U-VIsc 100/200 is a bench-top instrument that requires little counter space for operation. There are several things that need to be taken into account to facilitate its operation and maintenance. Instrument should be placed on a level surface which is free from vibration and located close to the utilities required for operation such as power, compressed air (5 bar, free of particles, oil and dust), solvent supply, fluid waste disposal and venting. U-VIsc 100/200 often fit on standard laboratory work benches, however 5 cm clearance is required to enable connection to utilities at the back of the instrument. If required, a specially designed pedestal base is available. An air-conditioned room is recommended for optimal temperature stability of the thermostatic bath. It is also good practice not to place the instrument in front of a window or door where the sun or drafts may cause temperature changes.
v3.02 / September 12th, 2014 Page 5 of 13 Coenecoop 715 • 2741 PW Waddinxveen, The Netherlands • Tel: +31-(0)182-302990 • Fax :+31-(0)182-302999
Email: info@omnitek.nl www.omnitek.nl Chamber of Commerce nr: 50007858
Specification Sheet
Optional accessories & upgrades Following items are optional accessories and upgrades to the instrument.
Dual solvent cleaning A suitable solvent used for cleaning should have the following 2 main characteristics:
It should be able to dissolve the sample that was tested, i.e. clean the tube
It should evaporate quickly enough at the test temperature so that the tube is dry after cleaning
If the solvent used does have the ability to dissolve the sample, but does not evaporate quickly enough, a second solvent can be used to clean out the first solvent, as well as dry the tube. Usually, low boiling solvents are used for this purpose, such as Acetone or MEK. All fittings and valves on the system are fully chemically resistant and allow for the use of solvents like Petroleum ether, Heptane, Toluene, Acetone or MEK.
Sample pre-heater All U-VIsc versions can be equipped with a sample pre-heater unit suitable to heat up fluids and solids from ambient up to 110 °C (controllable). Sample pre-heating is applicable to every tube, so ultimately a U-VIsc 220 may be equipped with 4 sample pre-heaters.
High temperature option Several applications like Polyethylene solutions, Waxes or Bitumen require elevated measurement temperatures. All U-VIsc variants can be built with special components capable running up to 150 °C. Suitable HT oil will be provided.
Cooling Spiral & cooling circulator For measurements close to ambient (± 8 °C), an additional cooling circulator is required to create sufficient offset for the temperature control unit. Both baths needs to be fitted with a cooling spiral, to which an external cooling circulator can be easily connected. Complete with tubing and fittings. Cooling spiral and cooling circulator will be supplied separately on request.
Touch screen option (for U-VIsc 100 series) The 200 series has an integrated touch screen but for the 100 series, this is an optional upgrade. The instrument can be fully operated through the PC interface so it is not required for daily operation, but the touch screen provides a more direct means of feedback to the operator.
Compressor Omnitek U-VIsc systems operate on clean 5-6 bar compressed air. If not available on-site a stand-alone version with @ approx. 100 l/min capacity can be provided.
Pedestal base Pedestal base can be supplied from Omnitek for floor-standing installation.
PC & Printer PC can be supplied locally or from Omnitek. Omnitek supplies a new generation laptop. Minimum operation software should be Windows 7. Any kind of printer can be used if instrument is connected to a PC by software. Printer can be supplied locally or from Omnitek. Omnitek supplies the latest model laser printer.
Integrated pre-heater in U-VIsc
v3.02 / September 12th, 2014 Page 6 of 13 Coenecoop 715 • 2741 PW Waddinxveen, The Netherlands • Tel: +31-(0)182-302990 • Fax :+31-(0)182-302999
Email: info@omnitek.nl www.omnitek.nl Chamber of Commerce nr: 50007858
Specification Sheet
ASTM Thermometers All U-VIsc units can be equipped with mercury / glass ASTM thermometers. These thermometers have a strictly defined, narrow temperature range and can be supplied with certificate. In case mercury / glass thermometers are not allowed or in case U-VIsc is used at multiple temperatures, modern digital contact thermometers (DCT) may be used as well.
Part No. Description
90.361.02 ASTM 120C thermometer, 38.6-41.4°C, including factory calibration certificate
90.361.03 ASTM 121C thermometer, 98.6-101.4°C, including factory calibration certificate
90.361.04 ASTM 46C / IP 66C thermometer, 48.6-51.4°C, including factory calibration certificate
90.361.06 ASTM 28C / IP 31C thermometer, 36.6-39.4°C, including factory calibration certificate
90.361.80 Digital thermometer, 3 decimals, -40 +150°C, 1 channel, with factory calibration certificate
Other thermometers are available on request.
U-VIsc series software U-VIsc utilizes advanced and easy to use software. One PC can control up to 4 different systems (1 COM-port required for each instrument). Data can be exchanged with a LIMS via RS-232 or wire-less. The instrument can be operated in its entirety through the PC interface. Sample ID's can be loaded and sample queues can be started, halted or temporarily suspended. Results are automatically stored in the internal database and optionally also on any external drive or network folder. During a run several kind of information is shown like measured flow times, average, spread and calibration / viscosity result. Also actual status like filling, cleaning, etc is shown for every unit involved. Measured flow times are presented in left or right column, depending whether upper or lower measuring bulb is used for testing. Sample queue is permanently present and can be edited any time without interrupting running samples.
v3.02 / September 12th, 2014 Page 7 of 13 Coenecoop 715 • 2741 PW Waddinxveen, The Netherlands • Tel: +31-(0)182-302990 • Fax :+31-(0)182-302999
Email: info@omnitek.nl www.omnitek.nl Chamber of Commerce nr: 50007858
Specification Sheet
Methods A unique feature of U-VIsc software is its ability to define and store different operating methods, including different ways for cleaning and drying tubes. Methods can be set up for viscosity measurement or calibration and involve a number of configurable steps.
Operating mode Viscosity or Calibration
Termination Static = Fixed number of consecutive measurements Dynamic = Number of measurements depend on pre-set spread
Warm-up time Fixed time for having sample thermally stabilized in viscometer tube
Pre-heating time Time to allow sample being pre-heated (note: pre-heater is optional)
Reduced vacuum Filling viscometer with reduced may prevent premature evaporating of low volatile components and/or may reduce formation of gas bubbles
Cleaning method Different pre-defined viscometer cleaning methods can be chosen from
Omnitek U-VIsc allows for defining several methods for cleaning of viscometer. This offers great advantages in operations as for any kind of fluid optimized cleaning parameters can be set.
Name Defined name will show up in operating method
Injections solvent 1 Number of injections of primary solvent, e.g. toluene
Injections solvent 2 Number of injections of secondary solvent, e.g. acetone
Injection quantity Amount of solvent per injection
Drying time Pre-set time
Thorough cleaning When set it will allow for intensive solvent spraying
Viscosity method
Cleaning method
v3.02 / September 12th, 2014 Page 8 of 13 Coenecoop 715 • 2741 PW Waddinxveen, The Netherlands • Tel: +31-(0)182-302990 • Fax :+31-(0)182-302999
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Specification Sheet
Measurement data All measurement and calibration data are stored and can be retrieved or exported to tab or csv format. Stored data may include:
Timestamp
System ID, tube ID, tube constant
Temperature
Flow times, Capillary constants
Kinematic viscosity
Viscosity index
Solvent viscosity
Relative, Specific, Intrinsic, Inherent viscosity
Viscosity number / Staudinger function
Hagenbach-Couette correction
Statistical calculations
Measurement data resulting from viscosity and calibration All data are collected and stored. Retrieval can be done through several screens, data can be reported to a printer or exported as TAB or CSV file for further storage or evaluation in LIMS or Excel.
v3.02 / September 12th, 2014 Page 9 of 13 Coenecoop 715 • 2741 PW Waddinxveen, The Netherlands • Tel: +31-(0)182-302990 • Fax :+31-(0)182-302999
Email: info@omnitek.nl www.omnitek.nl Chamber of Commerce nr: 50007858
Specification Sheet
Calibration standards
Standard nr.
Nominal kinematic viscosity
mm2/s (cSt) Standard
nr.
Nominal kinematic viscosity
mm2/s (cSt) Standard
nr.
Nominal kinematic viscosity
mm2/s (cSt)
40 °C 100 °C 40 °C 100 °C 40 °C 100 °C
N 0.4 0.40 S20 18 3.9 N1000 1,000 58
N 0.8 0.60 N35 30 5.3 S2000 1,700 86
N 1.0 0.99 S60 54 7.7 D5000 1,800 90
N2 1.7 N100 120 13 D7500 2,700 120
S3 2.9 1.2 S200 180 18 N4000 2,500 150
D5 4.1 1.5 D500 230 21 S8000 6,700 240
S6 5.7 1.9 N350 320 26 N15000 13,000 410
D10 7.4 2.2 D1000 440 36 S30000 23,000 660
N10 10 2.7 S600 520 36
U-VIsc 100 series standard delivery contents
Qty
Item 110 120 Part No. Description
1 1 1 91.1XY.Z0 * U-VIsc 110 / 120 single bath kinematic viscosity system, single solvent cleaning
2 1 2 92.200.00 Modified Ubbelohde viscometer tube with 3 sensors, 100-fold range **
3 1 1 92.33X.30 Sample tray
4 3 3 92.330.48 Bath oil, 5 liters
5 1/2 2/4 90.500.00 Viscosity calibration standard ***
6 1 1 92.330.50 U-VIsc 100 User Operation manual
7 1 1 90.350.09 Serial communication cable
8 1 1 92.330.07 Solvent supply flask, coated, 2 liters, complete with tubing and connectors
9 1 1 92.330.08 Waste collection flask, coated, 2 liters, complete with tubing and connectors
10 1 1 90.330.36 Power Cord 10A 230V Schuko
11 1 1 90.330.01 Disposable sample cups, 750 pcs.
12 1 1 91.350.00 Software to control up to 4 different systems
13 1 1 92.330.06 Bath drain accessory
14 1 1 92.330.49 Bath filling funnel
* X = 1 for 1 tube, X = 2 for 2 tubes, Y=0 for standard, 1 for Touch Screen version, Z = 0 for 230V/50
Hz, 1 for 115V / 60 Hz ** Viscometers may be selected from the table on page 4. If desired, the 3 sensors tubes may be
exchanged for 2 sensor tubes shown on the same page. *** Calibration standards will be matched to the viscometer tubes selected. For 100 fold tubes, 2 standards per tube will be supplied. For 10-fold tube, 1 standard will be supplied
v3.02 / September 12th, 2014 Page 10 of 13 Coenecoop 715 • 2741 PW Waddinxveen, The Netherlands • Tel: +31-(0)182-302990 • Fax :+31-(0)182-302999
Email: info@omnitek.nl www.omnitek.nl Chamber of Commerce nr: 50007858
Specification Sheet
U-VIsc 200 series standard delivery contents
Qty
Item 210 220 Part No. Description
1 1 1 91.2X0.Y0 * U-VIsc 210/220 dual bath kinematic viscosity system, single solvent cleaning
2 2 4 92.200.00 Modified Ubbelohde viscometer tube with 3 sensors, 100-fold range **
3 1 1 92.33X.30 Sample tray for left bath
4 1 1 92.33X.31 Sample tray for right bath
5 5 5 92.330.48 Bath oil, 5 liters
6 2/4 4/8 90.500.00 Viscosity calibration standard ***
7 1 1 92.330.50 U-VIsc 200 User Operation manual
8 1 1 90.350.09 Serial communication cable
9 2 2 92.330.07 Solvent supply flask, coated, 2 liters, complete with tubing and connectors
10 1 1 92.330.08 Waste collection flask, coated, 2 liters, complete with tubing and connectors
11 1 1 92.330.15 Power Cord 16A 230V Schuko
12 1 1 90.330.01 Disposable sample cups, 750 pcs.
13 1 1 91.350.00 Software to control up to 4 different systems
14 1 1 92.330.06 Bath drain accessory
15 1 1 92.330.49 Bath filling funnel
* X = 1 for 1 tube per bath, X = 2 for 2 tubes per bath; Y = 0 for 230V / 50 Hz, 1 for 115V / 60 Hz. ** Viscometers may be selected from the table on page 4. If desired, the 3 sensors tubes may be
exchanged for 2 sensor tubes shown on the same page. *** Calibration standards will be matched to the viscometer tubes selected.For 100 fold tubes, 2 standards per tube will be supplied. For 10-fold tube, 1 standard will be supplied
v3.02 / September 12th, 2014 Page 11 of 13 Coenecoop 715 • 2741 PW Waddinxveen, The Netherlands • Tel: +31-(0)182-302990 • Fax :+31-(0)182-302999
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Specification Sheet
U-VIsc spare part kits To enable best U-VIsc performance in time it is recommended to have a set of spare-parts available. For U-VIsc 100 and U-VIsc 200 series spare-part kits consist of same parts but differ in numbers. Article numbers: U-VIsc 100 series: 92.330.00 U-VIsc 200 series: 92.331.00
Composition of spare-part sets
Qty per U-VIsc serie
Item 100 200 Part No. Description
1 1 2 92.330.09 Solvent resistant valve U-VIsc (A,B,E,F,G,H,I,K)
2 1 2 92.330.10 Air valve U-VIsc (C,D,L)
3 1 1 92.330.18 Pressure tubing 4 mm, yellow 3 m
4 1 1 92.330.19 Pressure tubing 4 mm, red 3 m
5 1 1 90.330.28 Pressure tubing 6 mm, blue 3 m
6 1 1 92.330.20 Pressure tubing 6 mm, red 3 m
7 1 1 90.330.04 Chemically resistant tubing 3 mm, 3 m
8 1 1 90.330.14 Chemically resistant tubing 4 mm, 3 m
9 1 1 90.330.38 Chemically resistant tubing 6 mm, 3 m
10 1 1 92.330.16 O-ring kit for upper injector block, set of 10
11 1 1 92.330.17 O-ring kit for bottom injector block, set of 10
12 1 2 92.330.11 Ferrule for 3 mm tubing, set of 5
13 1 2 92.330.12 Nut for 3 mm tubing, set of 5
Viscometer tube selection The instrument utilizes up to 4 modified Ubbelohde viscometer-tubes, 1 or 2 in each bath. Using thermal sensors, tubes are suitable for both opaque and transparent, non-conductive samples. Using optical sensors, tubes are suitable for transparent and/or conductive fluids. Prior to measurement, the sample is drawn up into the viscometer tube and then allowed to warm up to the test temperature. Then, the sample flows down under gravity and the time between the sensors is measured. Two different tube concepts are available:
100-fold 3 sensor tubes These tubes have 3 sensors and 2 different measuring trajectories: the lower trajectory is used for high viscosity samples and the upper trajectory for lower viscosity samples. During sampling, the system measures the time it takes the sample to travel from the lower sensor to the middle sensor, thereby establishing the approximate viscosity. If the viscosity is high, the sample will be measured
v3.02 / September 12th, 2014 Page 12 of 13 Coenecoop 715 • 2741 PW Waddinxveen, The Netherlands • Tel: +31-(0)182-302990 • Fax :+31-(0)182-302999
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Specification Sheet
in the bottom trajectory, if it is low, it will be pulled up to the upper sensor and measured in the upper trajectory. The 3 sensor tubes thus have a very wide measuring range, approximately 100-fold, combined with fast flow times. They do require more sample volume (up to 16 ml) and solvent for cleaning.
10-fold 2 sensor tubes For users who only measure a narrow range of products, the 100-fold tubes as described above are not required. They can suffice with the 2-sensor tubes, which have approximately a 10-fold measuring range. These tubes allow for even faster measurement, require less sample (approx. 8 ml) and solvent for cleaning.
3 sensor tubes (100-fold range)
2 sensor tubes (10-fold range)
Article nr. Measuring range (cSt) Article nr. Measuring range (cSt)
92.2X0.0-003 0.2 - 20 92.2Y0.0-003 0.2 - 2.0
92.2X0.0-01 0.5 - 50 92.2Y0.0-01 0.5 - 5.0
92.2X0.0-02 1.0 - 100 92.2Y0.0-02 1.0 - 10
92.2X0.0-03 1.5 - 150 92.2Y0.0-03 1.5 - 15
92.2X0.0-05 2.5 - 200 92.2Y0.0-05 2.5 - 25
92.2X0.0-10 5 - 400 92.2Y0.0-10 5.0 - 50
92.2X0.0-20 10 - 800 92.2Y0.0-20 10 - 100
92.2X0.0-30 15 - 1,000 92.2Y0.0-30 15 - 150
92.2X0.0-50 25 - 1,500 92.2Y0.0-50 25 - 250
92.2X0.1-00 50 - 2,500 92.2Y0.1-00 50 - 500
92.2X0.2-00 100 - 5,000 92.2Y0.2-00 100 - 1,000
92.2X0.3-00 150 - 7,500 92.2Y0.3-00 150 - 1,500
92.2X0.5-00 250 - 10,000 92.2Y0.5-00 250 - 2,500
92.2Y0.10-00 500 - 5,000
Thermal [X = 0] Thermal [Y = 1]
Optical [X = 5] Optical [Y = 6]
U-VIsc series applications
Industries Petrochemical fluids Other fluids
Crude oil refineries Used oil analysis Lubricant blending Metalworking fluids Polymer production Pharmaceuticals Food production & processing Research & Development Quality Control
Liquid petroleum fluids (Petrol, Kerosene, Jet fuel, Diesel) Waxy samples, Asphalt, Bitumen Light / Heavy Oils Marine Fuels Crude Oils, Base Stocks Additives, Formulated Oils Hydraulic Oils, Gear Oils Transmission Oils, Motor Oils Used oils Polymer solutions (see page 10)
Polyols, Glycol / (Polyglycol), Propylene glycol, Polyalkylene Glycolethers Fatty acid esters (Biodiesel) Glycerol based esters Pharmaceuticals Baby food, Nursing food Water containing emulsions Printer ink Cellulose solutions, Gelatines Curing resins Epoxy resin (solutions)
For other fluids / solutions please inquire
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Specification Sheet
Standards for dissolved solution viscosity of polymers
Polymer Solvent Standard
CA Cellulose Acetate Dimethylchloride / methanol DIN 53 728/1
PA Polyamide Formic acid (90%) DIN 53 727, ISO 307, ASTM D789
PA Polyamide m-cresol DIN 53 727, ISO 307, ASTM D789
PAN Poly Acrylonitrile N,N-dimethylformamide ASTM D2857
PBT Polybutylene terephthalate
Phenol/dichlorobenzene (50:50) DIN 53 728/3, ISO 1628-4, ASTM D4603
PC Polycarbonate Dichloromethane DIN 7744/2, ISO 1628-4
PEA Poly Ethyl Acrylate
PET Polyethylene terephthalate m-cresol DIN 53 728/3, ISO 1628-5, ASTM D4603
PET Polyethylene terephthalate Phenol/dichlorobenzene (50:50)
DIN 53 728/3, ISO 1628-5, ASTM D4603, ASTM789
PET Polyethylene terephthalate o-Chlorophenol DIN 53 728/3, ISO 1628-5, ASTM D4603, ASTM789
PET Polyethylene terephthalate Dichloroaceticacid ASTM D4603
PMMA Polymethylmethacrylate Chloroform DIN 7745/2, ISO 1628-6
PMMA Polymethylmethacrylate Acetophenone DIN 7745/2, ISO 1628-6
POM Poly Oxy Methylene
PS Polystyrene Toluene
PSU Polysulphone Chloroform
PVC Polyvinyl chloride
Cyclohexanone/THF Cyclohexanone
ASTM D1243 ISO 1628-2, ASTM D3591, DIN 53726
SAN Styrene-acrylonitrile copolymer Ethyl methyl ketone
SB Styrene-butadiene copolymer Toluene
SMA Styrene – Maleic Anhydrid Acetone / THF
For other polymer solutions or methods please inquire
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