01.
02.
Thus, exothermic (energy releasing) and endothermic (energy absorbing) reactions, which can be detected by the DSC device, are used in these investigations. The most common examples are melting points, glass transitions, cross-linking and decomposition reactions. In addition, oxidation-induction measurements can be used to test the stabilizer system against oxidative attack or to detect degradation of the stabilizer system and/or material damage in the manufacturing processes. In addition to material, stabilizer and degradation identification, this measuring method also provides an insight into the prehistory of the sample (production, post-treatment, etc.).
- Thermal characterisation and identification of thermoplastics and other plastics
- Comparative measurement of thermal characteristics of thermoplastics and other plastics
- Evaluation of material stabilisation and degradation
- Basic research
- Materials development
- Damage assessment
Dynamic scanning calorimetry
01.
Description
Thus, exothermic (energy releasing) and endothermic (energy absorbing) reactions, which can be detected by the DSC device, are used in these investigations. The most common examples are melting points, glass transitions, cross-linking and decomposition reactions. In addition, oxidation-induction measurements can be used to test the stabilizer system against oxidative attack or to detect degradation of the stabilizer system and/or material damage in the manufacturing processes. In addition to material, stabilizer and degradation identification, this measuring method also provides an insight into the prehistory of the sample (production, post-treatment, etc.).
- Thermal characterisation and identification of thermoplastics and other plastics
- Comparative measurement of thermal characteristics of thermoplastics and other plastics
- Evaluation of material stabilisation and degradation
- Basic research
- Materials development
- Damage assessment