Leveraging the expertise of a team of Polymer Scientists (Ph.D.) & Engineers with years of experience in industry.
Determination and study of melting and crystallization: 1-Glass transition temperature, 2-Melting Temperature, 3-Softening point, 4-Crystallization temperature, 5-Crosslinking 6-Cold crystallization, Temperature Range : (-90 to 400 °C), Auto sample loader.
Simultaneous thermal analyzer (STA) combined with FT-IR spectroscopy (Bruker ALPHA II) to provide measurements against time, provide precise characterization of polymers: reverse engineering/ thermal oxidation and additive identification.
is a high-definition advanced GPC that enables fast fractionation of polymers with Wyatt MALS and RI detectors that provide faster and more accurate measurements of molecular weight with the range of Mw (3000 ~ 2,000,000 g/mol).
Testing polymers for mechanical properties and stability at a temperature range of -150 up to 600 °C. Four different clamps with five measurement modes can be selected based on material stiffness and dimension. Measuring, stiffness, and Mechanical properties change with time, Tg, Orientation, crosslinking and creep.
Measuring the tensile strength, strain, modulus and stretchability and strain at break, also used for evaluating strength in accelerated aging and moisture.
Elemental analysis technology can detect elements at milligram to nanogram levels per liter and can be used for reverse engineering and polymer characterization.
Measuring viscosity, rheology, melt stability versus temperature and time, Crosslinking study and curing profiles of thermoset plastics and UV-curing adhesives and encapsulants.
Determination of thermal stability, degradation temperature, and characterization of material change with temperature.
A fully automatic gas displacement pycnometer, It measures the density of polymers using sample capsules of 10 cm³ and 1 cm³.