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Our Fully Automatic Differential Scanning Calorimeter (DSC) is a cutting - edge thermal analysis instrument designed to accurately measure the heat flow associated with physical and chemical changes in a sample as a function of temperature.
1. High Precision and Sensitivity: Our DSC offers exceptional precision and sensitivity in measuring heat flow. The advanced heating and cooling system, combined with the high - quality sensors, ensures that even small changes in heat flow can be accurately detected. This is crucial for studying subtle thermal events in samples.
2. Wide Temperature Range: With a wide temperature range, typically from - 150 °C to 700 °C, our DSC can be used to study a wide variety of materials, from low - temperature polymers to high - temperature ceramics. This versatility makes it suitable for a broad range of applications.
3. Automated Operation: The fully automatic nature of the DSC simplifies the measurement process. Once the sample is loaded and the parameters are set, the instrument will automatically perform the measurement, collect the data, and analyze the results. This reduces the potential for human error and increases the efficiency of the laboratory.
4. Multiple Measurement Modes: The ability to perform different types of measurements, such as isothermal, dynamic, and modulated DSC, gives users great flexibility in studying the thermal properties of samples. For example, modulated DSC can separate overlapping thermal events, providing more detailed information about the sample.
5. Advanced Data Analysis: The data analysis system of the DSC can perform a variety of calculations, such as determining the melting point, glass transition temperature, and heat of reaction. It can also generate detailed reports and graphs, which are useful for presenting the results and making informed decisions.
1. Polymer Industry: In the polymer industry, our DSC is used to study the thermal properties of polymers, such as melting behavior, crystallization kinetics, and glass transition temperature. This information is crucial for polymer processing, quality control, and the development of new polymer materials.
2. Pharmaceutical Industry: In the pharmaceutical industry, DSC is used to study the thermal stability of drugs, the polymorphism of active pharmaceutical ingredients (APIs), and the compatibility of different drug components. This helps in ensuring the quality, safety, and efficacy of pharmaceutical products.
3. Food Industry: In the food industry, DSC can be used to study the thermal properties of food products, such as the melting and crystallization of fats, the gelatinization of starches, and the glass transition of food polymers. This information is useful for food processing, storage, and quality control.
4. Materials Science Research: In materials science research, DSC is used to study the thermal behavior of various materials, including metals, alloys, ceramics, and composites. It can provide insights into the phase transitions, chemical reactions, and other thermal processes occurring in these materials.
5. Quality Control in Manufacturing: In manufacturing industries, DSC is used for quality control of products. It can be used to verify the thermal properties of raw materials, intermediate products, and finished goods, ensuring that they meet the required specifications.
Shanghai Zhuoguang Instrument Technology Co., Ltd. focuses on the scientific instrument industry, manufacturing high-quality instruments and providing perfect services. Committed to innovation in the fields of food and drug analysis and testing, promoting "green food" and "healthy drugs", providing high-quality laboratory instruments and equipment, technical services, and integrated solutions for food safety, environmental monitoring, biochemical research, pharmaceuticals, petroleum industry, new material research, etc.
The company currently has instruments and equipment such as fully automatic potentiometric titrator, microwave digestion analyzer, fully automatic polarimeter, fully automatic video melting point apparatus, fully automatic grease melting point tester, fully automatic refractometer, calorimeter, densitometer, UV/visible spectrophotometer, fully automatic Karl Fischer moisture meter, etc.
Model | ZG -DSC-80 |
DSC range | 0~±500mW |
Temperature range | Room Temperature ~500℃, air cooling |
Heating rate | 1~80℃/min |
Temperature resolution | 0.01℃ |
Temperature fluctuation | ±0.3℃ |
Temperature repeatability | ±0.3℃ |
DSC noise | 0.002mW |
DSC, resolution | 0.002mW |
DSC, definition | 0.02mW |
DSC, sensitivity | 0.003mW |
Temperature control mode | Heating up, constant, cooling down, and circulating temperature (automatic control of full program) |
Test mode | Glass transition temperature, Melting Temperature, enthalpy. |
Curve scan | Heating up scan |
Atmosphere control | The instrument switches automatically |
Display mode | 24bit color, 7-inch LCD touchscreen display |
Data interface | Standard USB interface |
Parameter standard | Equipped with a standard material (tin), the user can correct the temperature and heat enthalpy by itself |
Our Fully Automatic Differential Scanning Calorimeter (DSC) is a cutting - edge thermal analysis instrument designed to accurately measure the heat flow associated with physical and chemical changes in a sample as a function of temperature.
1. High Precision and Sensitivity: Our DSC offers exceptional precision and sensitivity in measuring heat flow. The advanced heating and cooling system, combined with the high - quality sensors, ensures that even small changes in heat flow can be accurately detected. This is crucial for studying subtle thermal events in samples.
2. Wide Temperature Range: With a wide temperature range, typically from - 150 °C to 700 °C, our DSC can be used to study a wide variety of materials, from low - temperature polymers to high - temperature ceramics. This versatility makes it suitable for a broad range of applications.
3. Automated Operation: The fully automatic nature of the DSC simplifies the measurement process. Once the sample is loaded and the parameters are set, the instrument will automatically perform the measurement, collect the data, and analyze the results. This reduces the potential for human error and increases the efficiency of the laboratory.
4. Multiple Measurement Modes: The ability to perform different types of measurements, such as isothermal, dynamic, and modulated DSC, gives users great flexibility in studying the thermal properties of samples. For example, modulated DSC can separate overlapping thermal events, providing more detailed information about the sample.
5. Advanced Data Analysis: The data analysis system of the DSC can perform a variety of calculations, such as determining the melting point, glass transition temperature, and heat of reaction. It can also generate detailed reports and graphs, which are useful for presenting the results and making informed decisions.
1. Polymer Industry: In the polymer industry, our DSC is used to study the thermal properties of polymers, such as melting behavior, crystallization kinetics, and glass transition temperature. This information is crucial for polymer processing, quality control, and the development of new polymer materials.
2. Pharmaceutical Industry: In the pharmaceutical industry, DSC is used to study the thermal stability of drugs, the polymorphism of active pharmaceutical ingredients (APIs), and the compatibility of different drug components. This helps in ensuring the quality, safety, and efficacy of pharmaceutical products.
3. Food Industry: In the food industry, DSC can be used to study the thermal properties of food products, such as the melting and crystallization of fats, the gelatinization of starches, and the glass transition of food polymers. This information is useful for food processing, storage, and quality control.
4. Materials Science Research: In materials science research, DSC is used to study the thermal behavior of various materials, including metals, alloys, ceramics, and composites. It can provide insights into the phase transitions, chemical reactions, and other thermal processes occurring in these materials.
5. Quality Control in Manufacturing: In manufacturing industries, DSC is used for quality control of products. It can be used to verify the thermal properties of raw materials, intermediate products, and finished goods, ensuring that they meet the required specifications.
Shanghai Zhuoguang Instrument Technology Co., Ltd. focuses on the scientific instrument industry, manufacturing high-quality instruments and providing perfect services. Committed to innovation in the fields of food and drug analysis and testing, promoting "green food" and "healthy drugs", providing high-quality laboratory instruments and equipment, technical services, and integrated solutions for food safety, environmental monitoring, biochemical research, pharmaceuticals, petroleum industry, new material research, etc.
The company currently has instruments and equipment such as fully automatic potentiometric titrator, microwave digestion analyzer, fully automatic polarimeter, fully automatic video melting point apparatus, fully automatic grease melting point tester, fully automatic refractometer, calorimeter, densitometer, UV/visible spectrophotometer, fully automatic Karl Fischer moisture meter, etc.
Model | ZG -DSC-80 |
DSC range | 0~±500mW |
Temperature range | Room Temperature ~500℃, air cooling |
Heating rate | 1~80℃/min |
Temperature resolution | 0.01℃ |
Temperature fluctuation | ±0.3℃ |
Temperature repeatability | ±0.3℃ |
DSC noise | 0.002mW |
DSC, resolution | 0.002mW |
DSC, definition | 0.02mW |
DSC, sensitivity | 0.003mW |
Temperature control mode | Heating up, constant, cooling down, and circulating temperature (automatic control of full program) |
Test mode | Glass transition temperature, Melting Temperature, enthalpy. |
Curve scan | Heating up scan |
Atmosphere control | The instrument switches automatically |
Display mode | 24bit color, 7-inch LCD touchscreen display |
Data interface | Standard USB interface |
Parameter standard | Equipped with a standard material (tin), the user can correct the temperature and heat enthalpy by itself |
