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Thermomechanical Analyzer (TMA) by METTLER TOLEDO

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The TMA/SDTA 2+, available in four versions, incorporates Swiss precision mechanics with optimized furnace systems for obtaining measurements between –150 and 1600 °C.

Thermomechanical analyzer (TMA) from METTLER TOLEDO

This video provides information about today's power of thermomechanical analyzers from METTLER TOLEDO.

This video describes the benefits of using a thermomechanical analyzer from METTLER TOLEDO.

Thermomechanical analysis (TMA) is used to measure dimensional changes of a material as a function of temperature. Thermal expansion and effects such as softening, crystallization and solid-solid transitions determine the potential applications of a material and provide important information about its composition. Viscoelastic behavior can be studied by varying the applied force (DLTMA mode).

The TMA/SDTA 2+ can be used for a wide range of applications due to its broad temperature range and the wide choice of force parameters in compression and tension modes. As a result, the TMA/SDTA 2+ quickly provides characteristic information on numerous types of samples, for example very thin layers, large sample cylinders, fine fibers, films, plates, soft or hard polymers, and single crystals.

Furthermore, the TMA/SDTA 2+ is the only instrument on the market that measures the sample temperature very close to the sample in all operating modes. This enables temperature adjustment to be carried out using reference substances (e.g. the melting points of pure metals) or through a change in length.

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