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The Shimadzu Differential Thermal Analyzer (DTA-50) is a high-performance thermal analysis instrument designed to measure thermal transitions such as glass transitions, crystallization, and phase changes in materials across a broad temperature range of ambient to 1500°C, with calibrated accuracy up to 1100°C. Featuring a dual-pan system and a measurement range of ±0.2 to ±1000 µV, it provides precise calorimetric data for both solid and liquid samples in quantities as small as 5–10 mg. Its programmable heating rates from 0.1 to 50.0°C/min and integrated atmosphere control with a gas flowmeter ensure versatile and controlled experimental conditions. With rapid atmosphere purging and high-temperature Differential Scanning Calorimetry (DSC) capabilities, it delivers fast and sensitive results while accommodating challenging materials that exceed the operating limits of standard DSC systems. Compact yet powerful, the DTA-50 enables researchers and engineers to gain detailed insights into material properties, enhancing the accuracy and efficiency of thermal analysis workflows.
| Features | Specifications |
|---|---|
| Temperature Range | Ambient to 1500°C (accurate type use up to 1100°C) |
| Measurement Range (DTA/DSC) | ±0.2 to ±1000 µV (from ±0.2 mW) |
| Heating Speed | 0 to +50°C/min |
| Programmable Heating Rate | 0.1 to 50.0°C/min and 0.1 to 50.0°C/hour |
| Hold Time | 0 to 999 minutes or 0 to 999 hours |
| Sample Type | Solid or liquid |
| Sample Size | 5–10 mg |
| Temperature Program Format | 99 steps maximum |
| Temperature Program Files | Up to 100 files |
| Atmosphere Control | Built-in gas flowmeter (250 mL/min maximum) |
| Signal Output | Analog and digital |
| Power Supply | AC100V, 120V, 220V, 240V, 1.2 kVA, 50/60 Hz |
| Dimensions | W173 x D540 x H400 mm |
| Key Features | High-temperature DSC type performance, rapid atmosphere purge, and accurate temperature control |
| System Description | Dumbbell-shaped detector with built-in temperature controller, gas flow adjuster, and transmission interface |
| Applications | Glass transitions, crystallization, phase changes, melting, stability, cure kinetics, etc. |
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