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Our Fully Automatic Differential Scanning Calorimeter (DSC) is a top - of - the - line thermal analysis instrument that combines precision engineering with advanced technology to provide accurate and detailed information about the thermal properties of materials.
The heating and cooling system of the DSC is a marvel of modern engineering. It uses a dual - zone heating and cooling design, which allows for independent control of the sample and reference temperatures. This design provides more precise temperature control and reduces the thermal lag between the sample and the reference. The heating and cooling rates can be precisely adjusted, ranging from very slow rates for studying slow - occurring processes to very fast rates for rapid thermal analysis.
The sample chamber of the DSC is designed to be hermetically sealed. This prevents the ingress of air and moisture, which can affect the thermal properties of the sample. The chamber is also equipped with a purge gas system, which can be used to flush the chamber with an inert gas, such as nitrogen or argon, to create a controlled atmosphere for the measurement.
The control unit of the DSC is based on a high - performance microprocessor. It features a large, high - resolution touch - screen display that provides a clear and intuitive interface for users. The control unit can store multiple measurement programs, allowing users to quickly recall and execute different measurement sequences. It also has a built - in diagnostic system that can detect and report any malfunctions or errors in the instrument.
The data analysis software of the DSC is comprehensive and user - friendly. It can perform a wide range of calculations, such as peak integration, baseline correction, and determination of thermal properties. The software can also generate detailed reports and graphs, which can be customized according to the user's requirements.
1. Precise Temperature Control: The dual - zone heating and cooling design provides precise temperature control of the sample and reference, ensuring accurate measurement of thermal events. This is crucial for obtaining reliable and reproducible results.
2. Controlled Atmosphere Measurement: The hermetically sealed sample chamber and the purge gas system allow for measurements under a controlled atmosphere. This is useful for studying materials that are sensitive to air or moisture, such as polymers and some metals.
3. Multiple Program Storage: The ability to store multiple measurement programs saves time and effort for users. They can easily switch between different measurement sequences without having to re - enter the parameters every time.
4. Diagnostic System: The built - in diagnostic system helps in quickly identifying and resolving any issues with the instrument. This reduces the downtime of the DSC and ensures continuous operation in the laboratory.
5. Comprehensive Data Analysis Software: The data analysis software provides a wide range of functions for analyzing the DSC data. It allows users to perform complex calculations and generate detailed reports, which are useful for research and quality control purposes.
1. Automotive Industry: In the automotive industry, DSC is used to study the thermal properties of materials used in automotive components, such as plastics, rubbers, and composites. It can be used to optimize the manufacturing process, improve the performance and durability of the components, and ensure their safety.
2. Aerospace Industry: In the aerospace industry, DSC is used to analyze the thermal behavior of materials used in aircraft and spacecraft. It can be used to study the high - temperature stability of materials, such as ceramics and metals, and to ensure their performance under extreme conditions.
3. Renewable Energy Industry: In the renewable energy industry, DSC is used to study the thermal properties of materials used in solar cells, fuel cells, and energy storage systems. It can help in improving the efficiency and stability of these materials, which is crucial for the development of renewable energy technologies.
4. Research in Nanomaterials: In nanomaterials research, DSC is used to study the thermal properties of nanomaterials, such as nanoparticles and nanocomposites. It can provide insights into the unique thermal behavior of these materials at the nanoscale, which is important for their potential applications in various fields.
5. Quality Control in the Chemical Industry: In the chemical industry, DSC is used for quality control of chemical products. It can be used to verify the thermal properties of chemicals, such as melting point, boiling point, and heat of reaction, ensuring that they meet the required specifications.
Model | ZG -DSC-80L |
DSC range | 0~±500mW |
temperature range | -100~800℃ |
heating rate | 1~80℃/min |
temperature resolution | 0.1℃ |
temperature fluctuation | ±0.1℃ |
Temperature repeatability | ±0.1℃ |
DSC noise | 0.01μW |
DSC, resolution | 0.01μW |
DSC, definition | 0.1μW |
DSC, sensitivity | 0.1μW |
Temperature control mode | Heating up and constant temperature (automatic control of full program) |
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 Fully Automatic Differential Scanning Calorimeter (DSC) is a top - of - the - line thermal analysis instrument that combines precision engineering with advanced technology to provide accurate and detailed information about the thermal properties of materials.
The heating and cooling system of the DSC is a marvel of modern engineering. It uses a dual - zone heating and cooling design, which allows for independent control of the sample and reference temperatures. This design provides more precise temperature control and reduces the thermal lag between the sample and the reference. The heating and cooling rates can be precisely adjusted, ranging from very slow rates for studying slow - occurring processes to very fast rates for rapid thermal analysis.
The sample chamber of the DSC is designed to be hermetically sealed. This prevents the ingress of air and moisture, which can affect the thermal properties of the sample. The chamber is also equipped with a purge gas system, which can be used to flush the chamber with an inert gas, such as nitrogen or argon, to create a controlled atmosphere for the measurement.
The control unit of the DSC is based on a high - performance microprocessor. It features a large, high - resolution touch - screen display that provides a clear and intuitive interface for users. The control unit can store multiple measurement programs, allowing users to quickly recall and execute different measurement sequences. It also has a built - in diagnostic system that can detect and report any malfunctions or errors in the instrument.
The data analysis software of the DSC is comprehensive and user - friendly. It can perform a wide range of calculations, such as peak integration, baseline correction, and determination of thermal properties. The software can also generate detailed reports and graphs, which can be customized according to the user's requirements.
1. Precise Temperature Control: The dual - zone heating and cooling design provides precise temperature control of the sample and reference, ensuring accurate measurement of thermal events. This is crucial for obtaining reliable and reproducible results.
2. Controlled Atmosphere Measurement: The hermetically sealed sample chamber and the purge gas system allow for measurements under a controlled atmosphere. This is useful for studying materials that are sensitive to air or moisture, such as polymers and some metals.
3. Multiple Program Storage: The ability to store multiple measurement programs saves time and effort for users. They can easily switch between different measurement sequences without having to re - enter the parameters every time.
4. Diagnostic System: The built - in diagnostic system helps in quickly identifying and resolving any issues with the instrument. This reduces the downtime of the DSC and ensures continuous operation in the laboratory.
5. Comprehensive Data Analysis Software: The data analysis software provides a wide range of functions for analyzing the DSC data. It allows users to perform complex calculations and generate detailed reports, which are useful for research and quality control purposes.
1. Automotive Industry: In the automotive industry, DSC is used to study the thermal properties of materials used in automotive components, such as plastics, rubbers, and composites. It can be used to optimize the manufacturing process, improve the performance and durability of the components, and ensure their safety.
2. Aerospace Industry: In the aerospace industry, DSC is used to analyze the thermal behavior of materials used in aircraft and spacecraft. It can be used to study the high - temperature stability of materials, such as ceramics and metals, and to ensure their performance under extreme conditions.
3. Renewable Energy Industry: In the renewable energy industry, DSC is used to study the thermal properties of materials used in solar cells, fuel cells, and energy storage systems. It can help in improving the efficiency and stability of these materials, which is crucial for the development of renewable energy technologies.
4. Research in Nanomaterials: In nanomaterials research, DSC is used to study the thermal properties of nanomaterials, such as nanoparticles and nanocomposites. It can provide insights into the unique thermal behavior of these materials at the nanoscale, which is important for their potential applications in various fields.
5. Quality Control in the Chemical Industry: In the chemical industry, DSC is used for quality control of chemical products. It can be used to verify the thermal properties of chemicals, such as melting point, boiling point, and heat of reaction, ensuring that they meet the required specifications.
Model | ZG -DSC-80L |
DSC range | 0~±500mW |
temperature range | -100~800℃ |
heating rate | 1~80℃/min |
temperature resolution | 0.1℃ |
temperature fluctuation | ±0.1℃ |
Temperature repeatability | ±0.1℃ |
DSC noise | 0.01μW |
DSC, resolution | 0.01μW |
DSC, definition | 0.1μW |
DSC, sensitivity | 0.1μW |
Temperature control mode | Heating up and constant temperature (automatic control of full program) |
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 |
