Product Overview
The Setline TGA by SETARAM is a user-friendly and cost-effective thermogravimetric analyzer designed for precise mass variation measurements as a function of temperature. Utilizing a reliable hang-down balance system, it ensures accurate and stable results across a wide temperature range. Its compact design, combined with intuitive Calisto 2.0 software, makes it ideal for applications in quality control, education, and basic research.
Key Features
- Accurate Mass Measurement: Employs a simple and reliable hang-down balance, minimizing buoyancy effects and ensuring precise measurements.
- Wide Temperature Range: Operates from room temperature up to 1100 °C, accommodating various thermal analysis needs.
- Efficient Temperature Calibration: Features a built-in electromagnet for easy calibration, compliant with ASTM E1582 standards.
- Versatile Atmosphere Control: Supports both inert (N₂, Ar, He) and oxidative (Air, O₂) atmospheres with gas flow rates ranging from 10 to 100 ml/min.
- User-Friendly Software: Integrated with Calisto 2.0 software for intuitive data acquisition and processing.
- Compact Design: Space-efficient footprint suitable for various laboratory environments.
- Cost-Effective Maintenance: Simplified maintenance with accessible components and a replacement parts guarantee, lowering the total cost of ownership.
Specifications
| Parameter | Setline TGA |
|---|---|
| Temperature Range | Room Temperature to 1100 °C |
| Heating Rate | 0.01 to 50 °C/min |
| Temperature Accuracy | ±1 °C |
| Temperature Precision | ±0.3 °C |
| Cooling Time | 45 min from 1100 °C to 70 °C (air) |
| Atmosphere | Inert (N₂, Ar, He) or oxidative (Air, O₂) |
| Gas Flow Range | 10 to 100 ml/min |
| Mass Variation Range | ±20 mg / ±200 mg |
| Weighing Accuracy | 0.03% |
| Weighing Precision | 0.03% |
| Mass Variation Resolution | 0.0023 µg (small range) |
| Baseline Drift | <50 µg |
| Baseline Repeatability | ±5 µg |
| Dimensions (H × W × D) | 650 × 400 × 500 mm |
| Power Requirements | 230 V - 50/60 Hz |
Applications
- Thermal Stability Analysis: Assessment of material stability under varying temperatures.
- Decomposition Studies: Investigation of decomposition pathways in polymers, elastomers, pharmaceuticals, and biomaterials.
- Compositional Analysis: Determination of moisture, solvent content, ash, carbon, fillers, and additives in various substances.
- Pyrolysis and Combustion: Study of thermal degradation and combustion processes in organic materials like coal, oils, and lubricants.
- Educational Purposes: Ideal for teaching thermal analysis techniques in academic settings.
- Quality Control: Routine analysis in industrial laboratories for material verification and quality assurance.
Resources
Talk to us
Please complete the form and we will be in contact as soon as possible.