Differential Scanning Calorimetry (DSC)/ Differential Thermal Analysis (DTA)

DTA – Differential Thermal Analysis – & DSC – differential scanning calorimetry – measure, respectively, the temperature difference and the heat flow difference between a sample and a reference material (subjected to the same temperature variation in a controlled atmosphere).
DTA detects any change in all categories of materials; DSC determines the temperature and heat of transformation.
SETARAM Instrumentation offers:
– the widest temperature range of all DTA systems (from –150°C to 2400°C°) using high-precision tri-couple probes;
– the most complete choice of DSCs (from Q&C system to the highest sensitivity DSC, and 3D-Sensor Inside DSC).
Properties measured by DTA / DSC include phase changes, glass transition, melting, purity, evaporation, sublimation, crystallization, pyrolysis, heat capacity, polymerization, denaturation / aggregation, compatibility, etc.

Differential Scanning Calorimetry (DSC)/ Differential Thermal Analysis (DTA) : LABSYS evo DTA/DSC

LABSYS evo DTA/DSC (thermal analysis)

DTA, DSC from ambient to 1150°C or 1600°C LABSYS evo is a user friendly, robust and highly powerful thermal analysis platform. HIGHLIGHTS include: • A comprehensive line of thermal analyzers with two temperature ranges chosen and optimized for distinct families of application: – RT – 1 150 °C, a cost effective solution mostly (but not […]

Differential Scanning Calorimetry (DSC)/ Differential Thermal Analysis (DTA) : microSC-4c

microSC-4c (microcalorimetry)

Microcalorimetry (- 20°C to 170°C) Highlights include: – Wide temperature range covering -20 to 170°C – 2 measuring cells, featuring zero cross talk, and easily removable and reusable cells – High precision isothermal and scanning options are available to enable the study of both transitions and long term isothermal behaviour, such as stability and long […]

Differential Scanning Calorimetry (DSC)/ Differential Thermal Analysis (DTA) : SENSYS evo DSC

SENSYS evo DSC (differential scanning calorimetry)

An innovative line of Thermal Analyzers (-120 / 830°C) with 3D-Inside technology: DSC, High Pressure DSC, Robot DSC, TG – DSC – coupling to gas analyzer The HIGHLIGHTS Incomparable precision: the unique 3D sensor totally surrounds your sample and reference crucibles so that the entire energy of any transformation is monitored thereby giving you an […]

Differential Scanning Calorimetry (DSC)/ Differential Thermal Analysis (DTA) : SETSYS Evolution DTA/DSC


High-performance modular DTA & DSC thermal analyzers (ambient / 2400°C) The HIGHLIGHTS SETSYS Evolution is the standard for high performance TGA, TG-DSC and TG-DTA application.  It is based on a complete modular thermal analysis platform for – TGA, DTA and DSC – Simultaneous TGA/DTA and TGA/DSC – Dilatometry / TMA The key to the SETSYS […]

Differential Scanning Calorimetry (DSC)/ Differential Thermal Analysis (DTA) : 96 Line DTA / DSC

96 Line DTA / DSC

Large volume & high temperature DTA / DSC (ambient to 2000°C) The requirements of different experiments are sometimes contradictory, e.g. low sample mass is needed for good transition detection, high sample mass for accurate determination of heat capacity; analysis may need constant or variable temperature; use of the crucible may be open or closed. Two […]

Differential Scanning Calorimetry (DSC)/ Differential Thermal Analysis (DTA) : DSC131 evo

DSC131 evo

An-easy-to-use Differential Scanning Calorimetry DSC (-170 to 700°C) with a 3-year warranty The HIGHLIGHTS – Robustness: the DSC131 evo features a highly robust sensor that, if needed, can readily be changed by the user in less than 30 minutes. No other DSC offers such flexibility. – Ease of operation: dedicated market leading CALISTO software that […]

Differential Scanning Calorimetry (DSC)/ Differential Thermal Analysis (DTA) : microDSC7 evo

microDSC7 evo (microcalorimetry)

High-sensitivity DSC and microcalorimetry (-45 to 120°C) The HIGHLIGHTS • Wide operating temperature range (from -45 °C to 120 °C): cooling of the calorimeter does not require an external source. • Use in isothermal or temperature programming (DSC) mode. • Possibility to study samples in all forms: liquids, gel, powder, solid. • Variety of closed […]