ASTM D1238 prescribes four test procedures to measure the fluidity of plastics in the Melt Flow Index with testing the rate of extrusion of resins through a die.
Following ASTM D1238, Instron's CEAST MF50 tester with a piston holding device can be used to test high fluidity of molten thermoplastics.
ASTM D3364 creates guidelines for measuring Melt Flow Rates of poly compounds with a range of polymer instabilities for quality-control.
To compare unreinforced and carbon fiber reinforced Polyether ether ketone, use a CEAST Capillary Rheometer in accordance with ASTM D3835.
Following ASTM D5930, use a transient-line source technique to test the thermal conductivity of molten plastics and better understand molding processes.
A CEAST Capillary Rheometer has been used to test the flow behavior of plastic cap liners of bottle cap to prevent leaks with a tight mold and quality seal.
Thermo-Plastic Elastomers and synthetic rubber can be tested on a CEAST SmartRHEO capillary rheometer to ensure adherence to ISO 11443 and ASTM D3835.
ISO 1133 and ASTM D1238 specifies testing methods for calculating the fluidity of plastics, and the CEAST Modular Melt Flow Tester follows Procedure B in ISO 1133.
Melt Flow Testers with load cells increase repeatability of testing Melt Flow Rate and Melt Volume Flow Rate in accordance with ISO 1133-2 and ASTM D1238.
Testing with CEAST Capillary Rheometers and Visual RHEO Software allows manufacturers to understand the change in polymer viscosity related to time.
ISO 11443 and ASTM D3835 are specifications for determining the flow properties of polymeric materials at temperatures lower and higher than the melting point.
Along with temperature, shear rate, shear stress, filler content, and molecular weight change the fluidity of plastic melts and should be tested for their impact.
Low viscosity fluid with a high-shear environment for spray application can be tested with an Instron CEAST SR20 capillary rheometer.
With a capillary rheometer, Instron's Die Swell Tester can determine the extrudate swell from the polymeric material placed into a die during plastics manufacturing.
A controller can test how much a mold will shrink by placing it in a high-pressure chamber with controlled temperature, volume, and pressure, following ISO 17744.
For ISO 22007, testing technicians can determine thermal conductivity data easily by using Capillary Rheometers with applicable accessory.
When materials like feedstock for Metal Injection Molding do not need to be cured and can be injection molded without extra aids, they can undergo capillary rheometer tests.
Instead of manual cleaning methods, the Integrated Barrel Cleaning Device is used to easily clean Melt Flow Testers after every test to ensure accuracy.