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Thermomechanical Analysis – TMA – Tailor-Made for Low-Temperature Applications Polymers undergo changes in their thermomechanical properties during heating and cooling. TMA analyses can give insights into molecular orientation and quenching effects during cooling. It allows the design of adhesives and other hybrid joints and quality control of shrink films. TMA analyses can hereby provide valuable…
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Thermomechanical Analysis – TMA – Tailor-Made for Low-Temperature Applications
Polymers undergo changes in their thermomechanical properties during heating and cooling. TMA analyses can give insights into molecular orientation and quenching effects during cooling. It allows the design of adhesives and other hybrid joints and quality control of shrink films. TMA analyses can hereby provide valuable insight into the composition, structure, production conditions or application possibilities for various materials.
Displacement Control– Displacement static, steps, ramps
Force range (load at sample) – 0.001 N to 3 N without using additional weights
Force resolution – < 0.01 mN
Interchangeable sample holder systems – Fused silica, up to 450°C
Sample dimensions
Expansion/penetration: length: 30 mm max.; sample holder Ø 8 mm
Tension: length: 30 mm max.; width: 6 mm; thickness: 1 mm
3-Point bending: length: 10 mm max.; width: 5 mm
Automatic sample length determination (precision: 0.01 mm)
Atmospheres
1 mass flow controller (MFC, 2nd independent MFC optional), gas flow rate 0 to 250 ml/min software-controlled, inert, oxidizing, reducing, vacuum (10-4 mbar)
Various accessories – Spacers, crucibles and special wax containers
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