STA 449 F1 Jupiter®

• Thermal stability,
• Decomposition reaction
• A decomposition reaction is a thermally induced reaction of a chemical compound forming solid and/or gaseous products.
• decomposition behavior, composition,
• Phase Transitions
• The term phase transition (or phase change) is most commonly used to describe transitions between the solid, liquid and gaseous states.
• phase transitions, melting processes to be analyzed comprehensively and quickly
• Easily to use top-loading system with exceptionally precise balance resolution (25 ng resolution at a weighing range of 5g) and highest long-term stability
• Interchangeable sensors for DSC measurements with highest sensitivity and best reproducibility for reaction/transition temperatures and enthalpies as well as for measurements of specific heat (videoclip for sensor exchange)
• A variety of optional system enhancements for ideal system adaption to user-defined applications
• Various furnaces, easily interchangeable by the user, available (optional a swiveling double hoisting device for two furnaces) – please see accessories
• Pluggable sample carriers (TGA, TGA-DSC, TGA-DTA, etc.)
• Automatic Sample Changer (ASC) for up to 20 samples
• Automatic evacuation and refilling (AutoVac)
• Plenty of accessories, e.g. sample crucibles in the most varied of forms and materials
• Unique for STA: temperature-modulated DSC (TM-DSC)

By supplementary MS and/or FT-IR coupling even more comprehensive analyses are possible. All these features make the new developed STA 449 F1 Jupiter® the ideal tool for thermal analysis of materials in the fields of research, developments and quality assurance.