Synchronous thermal analyzer is a high precision instrument for measuring thermal properties and thermal decomposition behavior of materials. It can analyze various types of materials, including polymers, metals, wood, textiles, etc., as well as chemical reactions, thermal expansion and other physical phenomena. It is widely used in chemistry, material science, medicine, environment and other fields.

It is designed based on the principle that two or more probes perform thermal analysis tests at the same time. By measuring the heat and weight of the sample at the same time, the thermal effect of the sample in the process of thermal decomposition or reaction can be obtained, that is, the heat release or absorption. The advantage of the analyzer is that it makes very precise measurements and analyses of materials, which can provide important thermal and dynamic information to help scientists and engineers in their material design and development efforts.

The synchronous thermal analyzer provides a lot of information, including the thermochemical properties of materials, thermodynamic data, thermal data, etc. These data can be used to study the physical and chemical properties of the material and further explore the application of the material under different conditions. The analyzer can also be used to analyze the decomposition and reaction mechanisms of materials, as well as to analyze the properties of materials during processing, storage and use.

The synchronous thermal analyzer enables very accurate measurement and analysis of materials

The operation procedure is relatively simple, but the measurement technology and principle involved are more complicated. In general, it is first necessary to select the appropriate probe and experimental conditions, and place the sample on one of the probes for testing. Next, the two probes are activated simultaneously to control the operation of the thermal analyzer with the atmosphere gas, respectively measuring the weight and thermal effect of the sample, and finally obtaining the thermal characteristics of the sample. The whole process requires high-precision instruments and skilled operation techniques to ensure the accuracy and reliability of the results.

In short, the synchronous thermal analyzer is a very practical, high-precision instrument that can help scientists and engineers in their research and development of materials. Through the analysis of thermal properties and thermal decomposition behavior of materials, materials can be more accurately designed and selected, so as to better meet the needs of various fields.