LINSEIS HDSC L62 – HIGH TEMPERATURE DIFFENTIAL SCANNING CALORIMETER (DSC)
The Linseis HDSC L62 is an advanced High Temperature Differential Scanning Calorimeter designed for researchers and quality control professionals who require precise thermal characterization at extreme temperatures. Engineered for superior resolution and baseline stability, the HDSC L62 is the ultimate tool for investigating endothermic and exothermic transitions in high-performance materials.
With its modular design and vacuum-tight construction, the HDSC L62 allows for quantitative enthalpy and specific heat (Cp) determination under the cleanest atmospheres or high-vacuum conditions.
With its modular design and vacuum-tight construction, the HDSC L62 allows for quantitative enthalpy and specific heat (Cp) determination under the cleanest atmospheres or high-vacuum conditions.
Key Features & Technical Advantages
- Broadest Temperature Range: Utilize a modular concept with interchangeable furnaces to cover a massive range from -150°C up to 1750°C.
- Highest Calorimetric Sensitivity: Designed with short time constants and a condensation-free sample chamber to ensure the detection of even the most subtle thermal events.
- Interchangeable Measuring Systems: Choose between user-friendly DTA sensors or two different DSC sensors (Type E, K, S, B, or C) to perfectly match your specific application and atmosphere.
- Vacuum and Controlled Atmospheres: Supports high vacuum (10-5 mbar), inert, reducing, oxidizing, or humidified atmospheres.
- Built-in Automatic Evacuation: Integrated functionality ensures efficient experimental processes and smooth operation.
- High-Throughput Automation: Can be equipped with a proven 90-position sample robot for unattended measurements and maximum lab efficiency.
- Advanced Evolved Gas Analysis (EGA): Seamlessly upgrade your system by coupling it with MS, FTIR, or GCMS for comprehensive material insights.
Comprehensive Applications
The HDSC L62 provides detailed insights into the thermal behavior of a wide variety of materials:
- Metals & Steel: Detect phase transitions, magnetic property changes (Curie point), and melting/liquidus temperatures.
- Ceramics & Minerals: Analyze dehydroxylation and decomposition of complex minerals like talcum.
- High-Temperature Polymers: Investigate glass transitions, crystallinity, and thermal stability in specialized materials.
- Specific Heat (Cp) Analysis: Utilize Modulated DSC (MDSC) temperature profiles for significantly higher resolution and accuracy in specific heat measurements.
Powerful Software: Linseis LiEAP
The HDSC L62 is powered by the Linseis Evaluation and Acquisition Platform (LiEAP), which features:
- Multi-Instrument Support: Control DSC, STA, TGA, and LFA from a single unified platform.
- Thermal Library Identification: An optional database that enables automatic material recognition and comparison within seconds.
- Extended Functionality: Support for Python plugins, kinetic analysis, and multi-language versions (including English and Chinese).
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SPECIFICATIONS
BROCHURE
SPECIFICATIONS
| Temperature range | -150 °C up to 1750 °C |
| Vacuum Capability | 10-5 mbar (dependent on vacuum pump used) |
| Pressure Range | Up to 5 bar (Optional) |
| Heating Rate | 0.01 up to 100 °C/min (furnace dependent) |
| Temperature Precision | 0.01 °C |
| Sample Robot | 90-position (Optional) |
| DSC Sensors | Type E, K, S, B, or C |
| DSC Resolution | 0.3 / 0.4 / 1 / 1.2 mW |
| Calorimetric Sensitivity | Approx. 4 / 6 / 17.6 / 22.5 mW |
| DTA Resolution | 0.05 nV |
| DTA Sensitivity | 1.5 μV/mW |
| DTA Measuring Ranges | 250 / 2500 μV |
BROCHURE
| LINSEIS HDSC L62 Product Brochure |  Free Download PDF >> |
DIFFERENTIAL SCANNING CALORIMETRY
DIFFERENTIAL SCANNING CALORIMETRY