Materials Characterization made easy
Mettler Toledo’s offers a wide range of thermal analysis systems for a variety of application
Differential Scanning Calorimetry (DSC)
DSC measures the enthalpies associated with transitions and chemical reactions and determines the temperature at which these processes occur
Chip Calorimetry (Flash DSC)
Flash DSC is the ideal addition to conventional DSC for characterizing modern materials.
High Pressure Differential Scanning Calorimetry
DSC measures the enthalpies associated with transitions and reactions and the temperature at which these processes occur
Thermogravimetric Analysis (TGA)
Achieve trustworthy results such as composition, content, residue and stability with a Thermogravimetric Analyzer from the balance technology leader.
Simultaneous Thermal Analysis (TGA/DSC)
Weight change and heatflow measured under perfect identical test conditions with a TGA/DSC deliver more information about composition, phase transitions and chemical reactions.
Thermomechanical Analysis (TMA)
Thermal expansion coefficients are determined accurately and precisely by Thermomechanical Analyzers with nanometer resolution from -150 to 1600 °C.
Dynamic Mechanical Analyzer (DMA)
Determine the force and displacement amplitudes as well as phase shifts with the dynamic mechanical analyzer.
Hot stage microscopy systems
Excellence hot stage systems offer the possibility to conduct polymorphism and solvate studies, characterize liquid crystal compounds and study crystallization and melting of polymers.
STARe Excellence Thermal Analysis Software
Software flexibility and functionality is of vital importance in a modern thermal analysis system and is the key to maximizing productivity.
Thermal Analysis Crucibles
Highest quality crucibles for Thermal Analysis that help to extend the application range.
Thermal Analysis Options
The wide range of accessories and options, such as DMA and TMA measuring systems, various cooling devices or automatic sample changing systems open up new opportunities and expand your thermal analysis