Thermal Analysis System DMA/SDTA 1+ from Mettler Toledo

Due to its revolutionary technology, the DMA/SDTA 1+ provides unattained performance and offers time-saving external sample clamping.

Dynamic mechanical analysis sets new standards

The DMA/SDTA1+ thermal analysis system from Mettler Toledo sets new standards in the market. In contrast to traditional DMA instruments, it provides the latest and exclusive performance benefits:

The system features a frequency range of up to 1000 Hz for material behavior simulation and precise identification of moduli with the help of a dedicated force sensor.

  • Specific measurement of both force and displacement leads to a highly precise determination of moduli
  • Extensive force range from 1 mN to 40 N enables users to quantify extremely stiff and soft samples
  • Wide frequency range from 0.001 to 1000 Hz allows users to carry out measurements under real conditions or more quickly at higher frequencies
Frequency Range.

Frequency Range. Image Credit: Mettler Toledo

Force Range.

Force Range. Image Credit: Mettler Toledo

Deformation Mode.

Deformation Mode. Image Credit: Mettler Toledo

Stiffness Range.

Stiffness Range. Image Credit: Mettler Toledo


Source: Mettler Toledo

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Temperature accuracy (±) 0.5 K
Force Range 1 mN – 40 N
Temperature Range -150 °C – 500 °C
Frequency Range 0.001 to 1000 Hz
Stiffness Range 10 N/m – 108 N/m
Tan Delta Range 0.0001 – 5,000
Material Number(s) 30276400


Features and benefits of the DMA/SDTA1+—dynamic mechanical analyzer

  • Exclusive measurement of both displacement and force leads to a very precise determination of moduli.
  • Extensive force range from 1 mN to 40 N enables users to measure very stiff and very soft samples.
  • Broad frequency range of 0.001 to 1000 Hz implies that users can carry out measurements under real conditions or more quickly at higher frequencies.
  • DMA Experiment Wizard fixes the ideal experiment for best outcomes.
  • Patented SDTA method allows users to calibrate sample temperature and precisely quantify thermal effects.
  • A wider stiffness range enables users to measure a sample from the glassy to the liquid state in just one run.
  • Ergonomic touch-screen control and design guarantee quicker configuration and optimization of experiments.

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