Thermal analysis

Thermal analysis is a set of testing methods that provide information on changes in chemical and physical properties that occur during heating/cooling of a substance. These methods make it possible to determine such thermal parameters as, for example:

  • glass (transition) temperature, 
  • melting point, 
  • breakdown temperature, 
  • heat of fusion, 
  • specific heat,
  • polymorphic changes.

Thermal analysis – testing capabilities

Scope of tests we offer:

  • thermal analysis
    • DMA, 
    • DSC, 
    • TGA, 
    • FTIR;
  • determination of the glass (transition) temperature according to the following standards:
    • ASTM E1640, 
    • ASTM D7028;
  • melting enthalpy and crystallization of the polymers:
    • ASTM D3418;
  • thermal expansion testing according to ASTM E228 standard,
  • thermogravimetric analysis according to ASTM E1131 standard.

Thermal analysis – equipment

  • dynamic thermomechanical analyzer Perkin Elmer DMA 8000:
    • determination of the glass (transition) temperature, 
    • temperature range: -180°C ÷ +400°C, 
    • capability to perform measurements of mechanical and viscoelastic properties of such materials as:
      • thermoplastics, 
      • thermosetting plastics, 
      • elastomers,
      • ceramics, 
      • metals;
  • differential scanning calorimetry (DSC):
    • phase transition analysis, 
    • determination of specific heat, 
    • glass (transition) temperature, 
    • melting point, 
    • crystallization temperature, 
    • testing of resin cross-linking processes,
    • the subjects of the test are:
      • plastics,
      • composites, 
      • resins, 
      • organic and inorganic compounds, 
      • minerals, 
      • samples of natural origin;
  • TGA thermogravimetric analysis:
    • identification of the tested material, 
    • analysis of its composition, 
    • determination of filler content and other additives, 
    • determination of thermal stability of such materials as:
      • plastics, 
      • composites, 
      • organic and inorganic compounds, 
      • minerals,
      • samples of natural origin;
  • spectrophotometry Fourier Trasform Infra Red (FTIR) – determining the chemical composition of the tested material;
  • Anter UNITHERMTM 1000 dilatometer – thermal expansion test, temperature range: -196°C ÷ +1100°C.