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Thermal Analyses

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Thermal Analyses

Thermogravimetric analysis (TGA)

TGA enables assessment of sample mass changes as a function of temperature or time, allowing analysis of the thermal stability of tested materials, including determination of degradation temperature, content of inorganic additives, and individual decomposition stages.

Thermogravimetric analyzer TGA 2 (Mettler Toledo)

Differential scanning calorimetry (DSC)

DSC enables measurement of the amount of heat absorbed or released by a sample, allowing the study of thermal effects associated with phase transitions such as melting, crystallization, or glass transition.

Dynamic mechanical analysis system DMA/SDTA 861 (Mettler Toledo)

Thermomechanical analysis (TMA)


TMA allows tracking changes in the dimensions of a material under the influence of temperature, which is used, among other things, to determine the coefficient of thermal expansion (CTE), glass transition, or softening temperature.

Thermomechanical analysis system TMA/SDTA LN 600 and LF 1100 (Mettler Toledo)

Dynamic mechanical analysis (DMA)

DMA enables characterization of the mechanical properties of a material as a function of temperature and frequency by analyzing its response to dynamic loading — particularly useful for assessing elasticity and damping.

Dynamic mechanical analysis system DMA/SDTA 861 (Mettler Toledo)

TG / DSC analysis

The STA technique combines simultaneous TG/DSC measurements, allowing determination of key thermal parameters (thermal stability, phase transition temperatures).

Thermal analyzer (TG-DSC) STA 449 F1 Jupiter (Netzsch)


Coupled TG / DSC / FTIR / QMS analysis

The coupled STA method enables simultaneous TG/DSC measurements together with qualitative analysis of gases released during heating using FTIR spectroscopy and QMS mass spectrometry.

Thermal analyzer coupled with QMS and IR with ATR (Netzsch STA 449 F1 Jupiter; Bruker FTIR Tensor 27; QMS Aeolos)

LFA analysis

The laser flash analysis (LFA) method enables determination of the thermal conductivity of solid materials by measuring thermal diffusivity.

Laser apparatus for thermal diffusivity measurement LFA 457 MicroFlash (Netzsch)

HFM analysis

The heat flow meter (HFM) method enables measurement of the thermal conductivity of insulating materials.

Thermal conductivity measurement apparatus HFM 436 Lambda (Netzsch)

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