Overview
Huicheng STA-1550 Synchronous Thermal Analyzer combines thermogravimetric analysis TG with differential thermal analysis DTA or Differential Scanning Calorimeter DSC. The information of TG and DTA or DSC can be obtained synchronously by using the same sample in the same measurement. The instrument is used for measurement and study of thermal stability, composition, melting, crystallization and other characteristics of materials. It is widely used in research and development, process optimization and mass monitoring in plastics, rubber, coatings, catalysts, inorganic materials, metal materials and composites.
Features
1. Balance comes with internal Adjustment, with better accuracy and Repeatability;
2. Imported Platinum Rhodium Alloy Sensor, more anti-corrosion, anti-oxidation, Sensitivity;
3. The furnace body heating is made of precious metal alloy wire, which reduces interference and is more resistant to high temperature;
4. Perfect atmosphere Control system, automatic switching of software settings, data directly recorded in the database;
5. Adopting Cortex-M3 core ARM controller, the computing processing speed is faster and the temperature control is more accurate;
6. Adopt USB two-way communication to fully realize intelligent operation.
7. Adopt 7-inch 24bit color full-color LCD Touchscreen to display instrument status and data in real time;
8. Adopt upper open-lid structure for easy operation.
9. Automatically generate test reports and print them, and the software has built-in test records, data processing and report formats.
Principle
Synchronous Thermal Analyzer combines TG with DTA or Differential Scanning Calorimeter DSC to obtain TG and DTA or DSC information synchronously using the same sample in the same measurement. Thermogravimetric analysis observes the change of sample mass with temperature or time during heating, thermostatic or cooling to study the thermal stability and composition of materials.
Applications
Plastics, Rubber, Coatings, Catalysts, Inorganic Materials, Metal Materials, Composites
Steps
1. Use the upper open-lid structure to place the sample;
2. Set the experimental parameters through software, including Temperature range, heating rate, etc.;
3. Start the instrument for measurement and observe the data in real time;
4. Automatically generate test reports and print them.
Notice
• It is difficult to move the furnace body up and lodge samples, which is easy to cause damage to the sample rod;
• Make sure to use the correct atmosphere type (inert, oxidation, reducing, static, dynamic);
• Follow the specified power requirements: AC220V/50Hz.
