Differential scanning calorimetry analysis provides insight into critical physical properties of materials by testing their response to heat. The heating of both a sample and reference material provides a validated relative temperature response and heat capacity. These furnace-based systems are perfect for studying unique phase-change properties, such as with liquid crystals, determining quantitative enthalpy of materials, or testing the elasticity of products exposed to extreme temperatures and/or pressures. Differential scanning calorimeters offer temperature ranges as low as -180C and as high as 2400C, with the highest available heating rate at 300 K/min for DSC analysis. The principle models utilize heat flux systems, corrosion-free silver furnaces, or cylindrical high-conductivity silver block units, among others. The customer should keep an eye out for a differential scanning calorimeter that suppresses or prevents overlapping vaporization and/or simulates realistic temperature and pressure conditions.
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| Company | NETZSCH-Gerätebau GmbH | NETZSCH-Gerätebau GmbH | NETZSCH-Gerätebau GmbH |
| Item | DSC 404 F3 Pegasus® High-Temperature DSC / DTA Analyzer | DSC 204 HP Phoenix® High-Pressure DSC Instrument | DSC 3500 Sirius® Differential Scanning Calorimeter |
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| Catalog Number | DSC 404 F3 Pegasus | DSC 204 HP Phoenix | DSC 3500 Sirius |
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| Type | High-Temperature DSC / DTA Analyzer | high-pressure Differential Scanning Calorimeter | Differential Scanning Calorimeter |
| Principle | Heat-Flux DSC | Heat-Flux DSC | Heat-Flux DSC |
| Temperature Range | -150 °C to 2000 °C | -150 °C to 600 °C | -170 °C to 600 °C |
| Measuring Range | Cp measuring range: 0 to 5 J/(g*K) | Inquire | +/- 650 mW |
| Heating Rate | 0.001 K/min to 50 K/min (dependent on furnace) | 0.01 to 100 K/min | 0.001 to 100 K/min |
| Cooling Rate | Rate: 0.001 to approx. 50 K/min (furnace dependent) | 0.001 K/min to 50 K/min (dependent on furnace) | 0.001 K/min to 100 K/min |
| Description | Fascinating Flexibility in Thermal Analysis
The DSC 404 F3 Pegasus®, High-Temperature Differential Scanning Calorimeter, is part of the economical NETZSCH F3-product line, which is specially tailored to the requirements of comparative material characterization and quality control.
DSC 404 F3 Fascinating Flexibility in Thermal Analysis
The DSC 404 F3 Pegasus®, High-Temperature Differential Scanning Calorimeter, is part of the economical NETZSCH F3-product line, which is specially tailored to the requirements of comparative material characterization and quality control.
DSC 404 F3 Pegasus®, High-Temperature Differential Scanning Calorimeter, can be operated from -150°C to 2000°C with various DTA and DSC sensors that are easily exchangeable by the user and various furnace types (please see accessories).
The sample chamber can be purged with inert or oxidizing gases in order to remove gases evolved from the sample.
The measuring system is vacuum tight (10-4 mbar).... Read More | The high-pressure DSC for specific reactions
Numerous physical processes and chemical reactions are influenced by the surrounding gas pressure. In practise it is therefore often necessary to conduct DSC measurements under an increased pressure.
With the high-pressure Differential Scanning Calorimeter,The high-pressure DSC for specific reactions
Numerous physical processes and chemical reactions are influenced by the surrounding gas pressure. In practise it is therefore often necessary to conduct DSC measurements under an increased pressure.
With the high-pressure Differential Scanning Calorimeter, DSC 204 HP Phoenix®, thermal effects in a sample can be analyzed in the pressure range from vacuum to 15 MPa (150 bar) and at temperatures from -150°C to 600°C, depending on the type of gas. The sample chamber atmosphere can be static or dynamic. The electronic pressure monitor and control, along with exact regulation of the purge gas flow, provide for excellent accuracy and reproducibility of the measurement results.
The proven CC 200 L for liquid nitrogen cooling is available for the low-temperature range. The safety of the high-pressure DSC system has been certified through design tests and is guaranteed during operation by the appropriate safety components.... Read More | The cost-effective starter instrument for material characterization
The DSC 3500 Sirius unites state-of-the-art technology with high sensitivity in a robust, easy-to-operate measuring system across a temperature range from -170°C to 600°C. The most important characteristics of the DSC 3500 Sirius The cost-effective starter instrument for material characterization
The DSC 3500 Sirius unites state-of-the-art technology with high sensitivity in a robust, easy-to-operate measuring system across a temperature range from -170°C to 600°C. The most important characteristics of the DSC 3500 Sirius measuring cell are its silver furnace with long-life heating element and its monolithic DSC sensor featuring high stability and optimal resolution.
For high sample throughput, we recommend that the unit be equipped with an automatic sample changer (ASC) – this accommodates up to 20 samples and references, even of different crucible types.
The design of the DSC 3500 Sirius developed in Japan is tailored to routine tasks in quality control and failure analysis as well as for material characterization of technical textiles, of food products, in packaging, in the polymer and cosmetic industry and for further organic or inorganic materials.... Read More |
| Quantity | EA | EA | EA |
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