| タイプ: | テストマシン | 精度等級: | 高精度 |
|---|---|---|---|
| 正確さ: | ---- | 応用: | 自動テスト、臨床検査、ラボテスト |
| カスタマイズされたサポート: | OEM、ODM、OBM | 力: | --- |
| 保護クラス: | IP56 | 電圧: | 220V電気機器 |
| 保証: | 1年 | DSCの範囲: | ±1000mw (拡張可能) |
| 冷却速度: | 0.1~80°C/分 | DSCの感受性: | ≤0.5uw |
| エンタルピーの精度: | ±0.5% | ||
| ハイライト: | high accuracy differential scanning calorimeter,thermal analyzer differential scanning calorimetry,DSC400L thermal test instrument |
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LR-DSC400L Differential Scanning Calorimeter High Accuracy Thermal Analyzer Differential Scanning Calorimetry Test Instrument
Product Introduction
The LR-DSC400L is a high-precision differential scanning calorimeter launched by our company. The sensor uses imported E-couples, offering high accuracy, high sensitivity, and excellent repeatability. The signal acquisition circuit is shielded for strong anti-interference capabilities, and boasts extremely high baseline stability and repeatability.
The LR-DSC400L differential scanning calorimeter can perform tests on glass transition temperature, phase transition temperature, melting point, enthalpy, curing temperature, product stability, specific heat capacity, crystallization, and oxidation induction period. It is suitable for research in numerous fields such as pipe manufacturing, polymers, chemicals, food, and medical applications. The product serves universities, enterprises, research institutes, and quality inspection agencies, with a very wide range of applications meeting the testing needs of various industries.
Technical Features
1. Industrial-grade 7-inch touchscreen, displaying rich information.
2. New furnace structure for better baseline and higher accuracy. Heating uses indirect conduction, resulting in high uniformity and stability, reducing pulse radiation, and is superior to traditional heating methods.
3. USB communication interface mode, highly versatile, reliable and uninterrupted communication, supports self-recovery connection function.
4. Automatically switches between two atmosphere flow channels, with fast switching speed and short stabilization time. An additional protective gas input is also provided.
5. Rich software functions, covering a corresponding test case database.
6. Ultra-high sensitivity and accuracy, ≤0.5uw
7. Excellent technical specifications, superior performance, high cost-effectiveness, and wide application.
Compliant Standards
GB/T 33466.1-2016 Rigid Polyvinyl Chloride Pipes—Differential Scanning Calorimetry (DSC)—Part 1: Measurement of Processing Temperature
GB/T 40271-2021 Textile Fiber Identification Test Methods—Differential Scanning Calorimetry
GB/T 41928-2022 GB/T 41928-2022 Plastics—Epoxy Resins—Determination of Crosslinking by Differential Scanning Calorimetry (DSC)
GB/T 19466.1-2004 Plastics—General Rules for Differential Scanning Calorimetry (DSC)
GB/T 19466.4-2016 Plastics—Differential Scanning Calorimetry (DSC) Part 4 - Determination of Specific Heat Capacity
GB/T 19466.5-2022 Plastics - Differential Scanning Calorimetry (DSC) - Part 5: Determination of Temperature, Time, Enthalpy and Conversion of Characteristic Reaction Curves
GB/T 19466.6-2009 Plastics - Differential Scanning Calorimetry (DSC) - Part 6: Determination of Oxidation Induction Time (Isothermal OIT) and Oxidation Induction Temperature (Dynamic OIT)
GB/T 19466.2-2004 Plastics - Differential Scanning Calorimetry (DSC) - Part 2: Determination of Glass Transition Temperature
GB/T 19466.3-2004 Plastics - Differential Scanning Calorimetry (DSC) - Part 3: Determination of Melting and Crystallization Temperatures and Enthalpy
GB/T 29611-2013 Raw Rubber - Determination of Glass Transition Temperature (Partial National Standards Display)
PLR-DSC400L Differential Scanning Calorimeter High Accuracy Thermal Analyzer Differential Scanning Calorimetry Test Instrument
Technical Specification
|
Temperature Range |
-170-600℃ |
|
DSC Range |
±1000mw (expandable) |
|
Temperature Repeatability |
0.001 |
|
Heating Rate |
0.1~100℃/min |
|
Cooling Rate |
0.1~80℃/min |
|
DSC Sensitivity |
≤0.5uw |
|
Data Acquisition Frequency |
Customizable programmable, ≤20 data points collected per second |
|
Temperature Control Method |
Intelligent PID temperature control, intelligent memory of temperature control mode, combining the advantages of dynamic and static algorithms, with self-tuning and self-optimization functions. |
|
Cooling Method |
Liquid nitrogen refrigeration |
|
Flow Meter |
Mass flow meter, customizable programmable control, range 0~200ml/min |
|
Enthalpy Accuracy |
±0.5% |
|
Atmosphere Device |
Built-in three gas channels, capable of supplying nitrogen, oxygen, air, carbon dioxide, argon, etc. |
|
Sensor Type |
Type E |
|
Sensor Manufacturing Process |
Thermal diffusion process |
|
Furnace Manufacturing Process |
Corrosion and oxidation resistant treatment |
|
Operating Software |
The experiments can be exported in Excel, PDF, and other formats; the software includes an automatic analysis function, capable of analyzing specific heat capacity, enthalpy, melting point, glass transition temperature, degree of cure, crystallization, oxidation induction period, etc.; the software has a database of standard test methods; and the software can simultaneously compare more than 10 sets of data. |
|
Program Settings |
≥50 segments, expandable. |
|
Comparison Function |
Standard sample comparison can be performed, with a reasonable error value set; if the error value is exceeded, the comparison will indicate non-compliance. |
コンタクトパーソン: Kaitlyn Wang
電話番号: 19376687282
ファックス: 86-769-83078748
Japanese
