Thermal Analysis Excellence
Differential Scanning Calorimetry (DSC)

The DSC instruments as part of Thermal Analysis Premium or Excellence Line are the best choice for manual or automatic operation, from academic research and industrial development to quality assurance and production.
Specification
DSC 3 | DSC 3+ | High-Pressure DSC | Flash DSC | |
Temperature range | -150 to 700 °C | -150 to 700 °C | – | – |
Heating rate | 0.02 to 300 K/min | 0.02 to 300 K/min | – | – |
Dynamic Mechanical Analysis (DMA)

Features
- A multipurpose.
- Measurements can be carried out in all standard deformation modes (bending, tension, shear and compression), even in liquids or at defined relative humidity levels.
- A unique aspect is its rotatable measuring head.
- Analyze your sample in a defined environment – provides new material insight
- The unparalleled versatility applications to be performed in the optimum measurement configuration. Quick and easy to set up, whether for conventional DMA analyses, experiments using static forces or measurements in liquids.
Thermo Gravimetric Analysis (TGA)

Features
- Our TGA instruments deliver trustworthy results using the world’s best micro and ultra-micro balances with sub-microgram resolution over the whole measurement range.
- Routine measurements are started quickly, safely and easily with the unique One Click™ function from the instruments’ color touchscreen display.
- Sample identification can be done with a bar code reader.
- Efficient and reliable operation around the clock is ensured by the robust, factory endurance tested sample robot.
- The experimental time needed to produce accurate results is reduced by automatic buoyancy compensation.
- No need to run a blank measurement anymore.
- Optimal atmosphere around the sample is provided by the built-in mass flow controller gas supply units which are software controlled and do not need any user interaction when starting an experiment.
Thermo Mechanical Analysis (TMA)

Features
- Used for a wide range of applications due to its broad temperature range and the wide choice of force parameters in compression and tension modes.
- quickly provides characteristic information on numerous types of samples, for example very thin layers, large sample cylinders, fine fibers, films, plates, soft or hard polymers, and single crystals.
- An excellent technique for determining glass transitions for example materials with high filler content.
- The penetration mode is ideal for characterizing the glass transitions of difficult samples such as very thin coatings.