Product Overview
The THEMYS series by Setaram is a versatile and high-precision thermal analysis platform designed to meet the most demanding research and industrial applications. With its modular design, THEMYS supports a wide range of techniques, including Thermogravimetric Analysis (TGA), Differential Thermal Analysis (DTA), Differential Scanning Calorimetry (DSC), Simultaneous Thermal Analysis (STA), Thermomechanical Analysis (TMA), and Evolved Gas Analysis (EGA). Its ultra-high temperature capability, reaching up to 2400 °C, combined with various atmosphere control options, makes it ideal for advanced material characterization.
Key Features
- Ultra-High Temperature Capability: Achieves temperatures up to 2400 °C with a single furnace, suitable for high-temperature material studies.
- Modular Design: Supports multiple techniques (TGA, DTA, DSC, STA, TMA) within a single instrument, allowing flexibility in analysis.
- High Accuracy & Sensitivity: Equipped with a hang-down symmetrical beam balance specifically designed for TGA applications, ensuring precise mass variation measurements.
- Versatile Atmosphere Control: Offers multiple carrier and reactive gas options, including inert, oxidative, and corrosive atmospheres, as well as vacuum conditions.
- External Coupling Capability: Compatible with evolved gas analyzers such as FTIR, MS, and GC-MS for comprehensive gas analysis.
- Advanced Software Integration: Utilizes Calisto 2.0 software for intuitive control, data acquisition, and processing.
Specifications
| Parameter | THEMYS |
|---|---|
| Temperature Range | Ambient to 2400 °C |
| Heating Rate | 0.01 to 100 °C/min |
| Crucible Volume | 55 to 2,500 µL |
| Sample Size | Up to 100 g |
| Balance Resolution | As low as 0.00059 µg |
| Atmosphere Options | Inert, oxidative, corrosive, vacuum |
| Gas Flow Control | Up to 4 Mass Flow Controllers (MFCs) |
| Vacuum Capability | Primary (<1 mbar), forced primary (<5×10⁻² mbar), secondary vacuum options |
| Coupling Options | FTIR, MS, GC-MS |
| Software | Calisto 2.0 |
Applications
- Thermal Stability Analysis: Assessing material stability under varying temperatures.
- Composition Analysis: Determining the composition of complex materials.
- Phase Diagram Studies: Investigating phase transitions and transformations.
- Solid-Gas Reactions: Studying reactions between solids and gases, such as oxidation and reduction processes.
- Material Characterization: Analyzing metals, ceramics, polymers, catalysts, and more.
- Environmental Applications: Evaluating biomass, waste materials, and other environmental samples.
Resources
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