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Synchronous thermal analyzer: principle, workflow and practical application

Release time:
2023/08/25 09:11
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Synchronous thermal analyzer is a kind of multifunctional experimental equipment, which can measure and analyze the thermal and physical properties of the sample at the same time. This instrument has been widely used in material science, chemistry, physics, electronics and other fields. This paper will introduce the principle, work flow of synchronous thermal analyzer and its significance and function in practical application.

Shanghai HESON HS-STA-002 synchronous thermal analyzer

 

Shanghai HESON HS-STA-002 synchronous thermal analyzer

 

The basic principle of a synchronous thermal analyzer is to measure the properties of a sample using changes in thermal and physical properties with temperature and time. It mainly includes three parts: heating system, measuring system and control system. The heating system provides an adjustable temperature to heat the sample to the desired temperature. The measurement system can measure the thermal and physical properties of the sample, such as TGA, DSC, etc. The control system can accurately control the experimental process, including temperature, time, experimental steps, etc.

 

The work flow of synchronous thermal analyzer includes preparation before experiment, operation and data processing during experiment. The preparation before the experiment includes selecting the appropriate sample, setting the experimental parameters, checking the instrument and so on. The operation of the experiment includes placing the sample into the instrument, starting the experiment, monitoring the experiment process, etc. Data processing includes analyzing experimental results, drawing curves, comparing different samples, etc.

 

The significance and function of synchronous thermal analyzer is that it can quickly and accurately measure the thermal and physical properties of samples, so as to provide an important basis for the research, development and quality control of materials. For example, in the field of electronics, synchronous thermal analyzers can be used to measure the thermal and physical properties of semiconductor materials and electronic components to ensure their excellent performance and reliability. In the field of chemistry, the synchronous thermal analyzer can be used to study the thermal and physical properties of the chemical reaction process to reveal the reaction mechanism and law.

 

In short, the synchronous thermal analyzer is an important experimental equipment, which can measure and analyze the thermal and physical properties of the sample at the same time. Although the use of synchronous thermal analyzer requires certain technology and experience, it is of great significance for the research, development and quality control of materials. With the continuous progress of science and technology, synchronous thermal analyzer will continue to develop to provide more accurate and reliable data support for scientific research.