Elastomers are highly versatile elastic polymers that can be stretched or compressed yet return to their original shape when the stress is removed. Found in a diverse range of items including rubber bands, seals, and tires, they play a crucial role in both industry and daily life. Due to their high temperature dependence, thermal analysis is a powerful tool for understanding elastomer behavior under varying temperature and stress conditions.
Join our upcoming webinar to find out what shapes your elastomers and enhance your knowledge in thermal analysis!
Why is Thermal Analysis Essential for Characterizing Elastomers? |
Techniques such as DSC, TGA, TMA, and DMA can measure elastomer properties and behavior across a temperature range of −150 to 1600 °C. Using just a few milligrams of sample, you can determine critical information, including glass transition, vulcanization reactions, composition, identification, expansion coefficient, creep, and swelling behavior. Understanding these properties is crucial in both research and quality control settings across various industries.
Don’t miss this opportunity to gain in-depth knowledge on characterizing these fascinating materials.
Register now to secure your spot, and be sure to prepare your questions for our experts!
Nicolas Fedelich
With a background in chemical engineering, Nicolas joined METTLER TOLEDO in 2009 as an application specialist for Thermal Analysis. Before that, he gained expertise in different laboratories implementing, developing, and validating analytical methods in both the pharmaceutical and environmental fields. Nicolas also worked for three years in the field carrying out on-site customer training and providing expert thermal analysis application support. In his present position, Nicolas expertly uses, teaches, and supports DSC, TGA, TMA, and DMA instruments at the METTLER TOLEDO head office in Switzerland.