LMS Technologies Vietnam

DYNAMIC MECHANICAL ANALYSIS (DMA/DMTA)

Dynamic Mechanical Analysis (DMA) / Dynamic Mechanical Thermal Analysis (DMTA) records a material’s temperature-dependent visco-elastic properties and determines its modulus of elasticity and damping values by applying an oscillating force to the sample.



DYNAMIC MECHANICAL ANALYSIS (DMA/DMTA) PRODUCTS
DMA 303 Eplexor®
Dynamic Mechanical Analysis (DMA/DMTA) is a powerful technique for probing the mechanical behavior of materials, especially the viscoelastic properties crucial for polymers.
GABOMETER - Intelligent Universal Flexometer
Accurate measurements of Heat Build-up or Blow out processes and the determination of the thermal set can be realised by our GABOMETER® system – a development based on the established Goodrich Flexometer. Both, force and elongation controlled tests can be carried out with this modern type of Flexometer. Read More…
DMA EPLEXOR High Temperature
The EPLEXOR® HT line is the only instrument series on the market which is able to carry out DMA measurements with a maximum dynamic force of 500 N to 1500°C.
DMA EPLEXOR 6000 - Ultra-High Force Series up to 6000 N
These instruments offer static and additional dynamic force levels from max. ± 2000 N to max. ± 6000 N each, and are thus the perfect choice for investigating the dynamic mechanical (or only static) properties of rigid samples as well as of specimens with larger dimensions – even component parts.
DMA GABO EPLEXOR - High-Force DMA Series Up to ±500 N
The testing instruments of the GABO EPLEXOR® series up to ±500 N enable the dynamic mechanical (or static) characterization of a wide range of different materials including elastomers and polymers, composites, metals, glasses, ceramics, biomaterials and foods, adhesives, and liquids.
DMA 242 E Artemis
The new DMA 242 E Artemis combines ease of handling with the user-friendly Proteus® measurement and evaluation software. This makes it fast and easy to characterize the dynamic mechanical properties as a function of frequency, temperature and time.