- Home
- Hot Sales
- Products
- Application
- About Us
- Support
- News
- Contact
| Quantity: | |
|---|---|
Our state - of - the - art Fully Automatic Differential Scanning Calorimeter (DSC) is a highly advanced thermal analysis device that provides in - depth insights into the thermal behavior of materials.
The DSC is equipped with a state - of - the - art heating and cooling module. It uses a unique design that combines a high - power heating element and an efficient cooling system. The heating element can rapidly raise the temperature of the sample, while the cooling system can quickly bring it back down. This allows for fast and accurate temperature ramping, which is essential for studying rapid thermal events.
The sample cell of the DSC is designed with precision. It is made of high - quality materials that are resistant to corrosion and thermal stress. The cell can hold small amounts of sample, typically in the range of a few milligrams, which is ideal for precious or limited - quantity samples. The reference cell is also carefully calibrated to ensure accurate measurement of the heat flow difference.
The control system of the DSC is based on a modern microcontroller with advanced firmware. It features a user - friendly graphical interface that can be operated via a touch - screen or a computer. Users can easily set up complex measurement programs, including multiple temperature ramps, isothermal holds, and different heating/cooling rates.
The data acquisition system of the DSC is capable of collecting data at a high sampling rate. It can record the heat flow data with high resolution, allowing for the detection of even the smallest thermal events. The data can be transferred to a computer via a USB or Ethernet connection for further analysis using specialized software.
1. Fast Temperature Ramping: The ability to rapidly heat and cool the sample enables the study of fast - occurring thermal events, such as rapid crystallization or decomposition. This is particularly useful in industries where fast - processing materials are used.
2. Small Sample Requirement: The DSC can analyze samples as small as a few milligrams, which is beneficial for studying expensive or scarce materials. It also reduces the amount of sample waste, making it more environmentally friendly.
3. Advanced Control and Programming: The user - friendly interface and the ability to set up complex measurement programs give users great flexibility in studying different thermal phenomena. They can simulate real - world conditions and study the behavior of materials under various temperature profiles.
4. High - Resolution Data Acquisition: The high - resolution data acquisition system ensures that all thermal events are accurately recorded. This allows for detailed analysis of the thermal behavior of the sample, including the identification of overlapping thermal events.
5. Compatibility with Software: The DSC is compatible with specialized software that can perform advanced data analysis, such as peak deconvolution, kinetic analysis, and comparison of multiple samples. This software makes it easier for users to interpret the results and draw meaningful conclusions.
1. Energy Storage Industry: In the energy storage industry, DSC is used to study the thermal properties of battery materials. It can be used to analyze the thermal stability of electrodes, electrolytes, and other components of batteries. This information is crucial for improving the safety and performance of batteries.
2. Cosmetics Industry: In the cosmetics industry, DSC can be used to study the thermal behavior of cosmetic products, such as creams, lotions, and lipsticks. It can help in understanding the melting and crystallization behavior of the ingredients, which is important for product formulation and stability.
3. Ceramics Industry: In the ceramics industry, DSC is used to study the sintering process of ceramics. It can measure the heat flow associated with the phase transitions and chemical reactions that occur during sintering, helping to optimize the sintering conditions and improve the quality of ceramic products.
4. Biomaterials Research: In biomaterials research, DSC is used to study the thermal properties of biomaterials, such as polymers used in tissue engineering and drug delivery systems. It can provide information about the biocompatibility, degradation behavior, and thermal stability of these materials.
5. Quality Assurance in Electronics: In the electronics industry, DSC can be used for quality assurance of electronic components. It can detect any thermal anomalies in materials used in electronic devices, such as solders, adhesives, and polymers, ensuring the reliability and performance of the devices.
| Model | ZG -DSC-800 |
DSC range | 0~±500mW |
temperature range | Room Temperature ~800℃ |
heating rate | 1~80℃/min |
temperature resolution | 0.01℃ |
temperature fluctuation | ±0.1℃ |
Temperature repeatability | ±0.1℃ |
DSC noise | 0.001mW |
DSC, resolution | 0.001mW |
DSC, definition | 0.01mW |
DSC, sensitivity | 0.001mW |
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 |
content | Quantity (set) |
Host Machine | 1 set |
Compact Disc | 1 PCS |
Data wire | 2 PCS |
Power line | 1 PCS |
Aluminum crucible | 1 pack (around 100 PCS) |
Ceramic crucible | 1 pack (around 100 PCS) |
Pure tin grain | 1 Bag |
10A fuse wire | 5 PCS |
Manual | 1 PCS |
Warranty sheet | 1 PCS |
Certificate of Compliance | 1 PCS |
Our state - of - the - art Fully Automatic Differential Scanning Calorimeter (DSC) is a highly advanced thermal analysis device that provides in - depth insights into the thermal behavior of materials.
The DSC is equipped with a state - of - the - art heating and cooling module. It uses a unique design that combines a high - power heating element and an efficient cooling system. The heating element can rapidly raise the temperature of the sample, while the cooling system can quickly bring it back down. This allows for fast and accurate temperature ramping, which is essential for studying rapid thermal events.
The sample cell of the DSC is designed with precision. It is made of high - quality materials that are resistant to corrosion and thermal stress. The cell can hold small amounts of sample, typically in the range of a few milligrams, which is ideal for precious or limited - quantity samples. The reference cell is also carefully calibrated to ensure accurate measurement of the heat flow difference.
The control system of the DSC is based on a modern microcontroller with advanced firmware. It features a user - friendly graphical interface that can be operated via a touch - screen or a computer. Users can easily set up complex measurement programs, including multiple temperature ramps, isothermal holds, and different heating/cooling rates.
The data acquisition system of the DSC is capable of collecting data at a high sampling rate. It can record the heat flow data with high resolution, allowing for the detection of even the smallest thermal events. The data can be transferred to a computer via a USB or Ethernet connection for further analysis using specialized software.
1. Fast Temperature Ramping: The ability to rapidly heat and cool the sample enables the study of fast - occurring thermal events, such as rapid crystallization or decomposition. This is particularly useful in industries where fast - processing materials are used.
2. Small Sample Requirement: The DSC can analyze samples as small as a few milligrams, which is beneficial for studying expensive or scarce materials. It also reduces the amount of sample waste, making it more environmentally friendly.
3. Advanced Control and Programming: The user - friendly interface and the ability to set up complex measurement programs give users great flexibility in studying different thermal phenomena. They can simulate real - world conditions and study the behavior of materials under various temperature profiles.
4. High - Resolution Data Acquisition: The high - resolution data acquisition system ensures that all thermal events are accurately recorded. This allows for detailed analysis of the thermal behavior of the sample, including the identification of overlapping thermal events.
5. Compatibility with Software: The DSC is compatible with specialized software that can perform advanced data analysis, such as peak deconvolution, kinetic analysis, and comparison of multiple samples. This software makes it easier for users to interpret the results and draw meaningful conclusions.
1. Energy Storage Industry: In the energy storage industry, DSC is used to study the thermal properties of battery materials. It can be used to analyze the thermal stability of electrodes, electrolytes, and other components of batteries. This information is crucial for improving the safety and performance of batteries.
2. Cosmetics Industry: In the cosmetics industry, DSC can be used to study the thermal behavior of cosmetic products, such as creams, lotions, and lipsticks. It can help in understanding the melting and crystallization behavior of the ingredients, which is important for product formulation and stability.
3. Ceramics Industry: In the ceramics industry, DSC is used to study the sintering process of ceramics. It can measure the heat flow associated with the phase transitions and chemical reactions that occur during sintering, helping to optimize the sintering conditions and improve the quality of ceramic products.
4. Biomaterials Research: In biomaterials research, DSC is used to study the thermal properties of biomaterials, such as polymers used in tissue engineering and drug delivery systems. It can provide information about the biocompatibility, degradation behavior, and thermal stability of these materials.
5. Quality Assurance in Electronics: In the electronics industry, DSC can be used for quality assurance of electronic components. It can detect any thermal anomalies in materials used in electronic devices, such as solders, adhesives, and polymers, ensuring the reliability and performance of the devices.
| Model | ZG -DSC-800 |
DSC range | 0~±500mW |
temperature range | Room Temperature ~800℃ |
heating rate | 1~80℃/min |
temperature resolution | 0.01℃ |
temperature fluctuation | ±0.1℃ |
Temperature repeatability | ±0.1℃ |
DSC noise | 0.001mW |
DSC, resolution | 0.001mW |
DSC, definition | 0.01mW |
DSC, sensitivity | 0.001mW |
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 |
content | Quantity (set) |
Host Machine | 1 set |
Compact Disc | 1 PCS |
Data wire | 2 PCS |
Power line | 1 PCS |
Aluminum crucible | 1 pack (around 100 PCS) |
Ceramic crucible | 1 pack (around 100 PCS) |
Pure tin grain | 1 Bag |
10A fuse wire | 5 PCS |
Manual | 1 PCS |
Warranty sheet | 1 PCS |
Certificate of Compliance | 1 PCS |
