Synchronous thermal analyzer is a kind of multifunctional precision instrument, which is mainly used to study the thermal properties of materials at different temperatures. This instrument combines thermal analysis and a variety of detection techniques, and can obtain the thermal properties, chemical composition and structure information of samples in the same experiment process at the same time, which has the advantages of accuracy and convenience. It has a wide range of application prospects in material research, chemical research, energy research, environmental protection research and other fields.

First, the working principle

Synchronous thermal analyzer is mainly composed of heating system, temperature control system, quality measurement system, atmosphere control system and a variety of detection systems. The heating system provides heat source through electric heating or gas heating, so that the sample can undergo thermal changes at different temperatures. The temperature control system precisely controls the experimental temperature through the temperature sensor and control circuit. Mass measurement systems reflect the thermal properties of a sample by measuring its mass change, usually using microbalance or electronic balance for measurement. The atmosphere control system can control the type and pressure of the experimental atmosphere, such as air, nitrogen, argon, etc., and the vacuum environment. A variety of detection systems use different types of detectors, such as infrared spectrometers, mass spectrometers, thermogravimetric analyzers, etc., to detect and analyze samples in many ways.
Synchronous thermal analyzer

The technical characteristics of synchronous thermal analyzer mainly have the following aspects
Second, technical characteristics

The technical characteristics of synchronous thermal analyzer mainly have the following aspects:

Multifunctional: Combined with thermal analysis and a variety of detection techniques, you can carry out a variety of thermal property research, such as thermogravimetric analysis, differential thermal analysis, differential scanning calorimetry, etc.

High precision: The instrument adopts high precision temperature control system and quality measurement system, which can achieve accurate temperature control and sample quality measurement to ensure the accuracy of experimental results.

High efficiency: The thermal properties, chemical composition and structure of the sample can be obtained at the same time in the same experiment process, which improves the experimental efficiency.

Convenience: A variety of samples can be tested and analyzed at the same time, convenient batch processing.

The technical characteristics of synchronous thermal analyzer mainly have the following aspects

3. Application fields

Widely used in material science, chemistry, physics, energy, environmental protection and other fields. In the field of materials science, it can be used to study the thermal stability of materials, phase change behavior, combustion performance, etc. In the field of chemistry, it can be used to study chemical reaction kinetics, catalytic performance, etc. In the field of energy, it can be used to study the thermal properties of batteries, fuel cells, etc. In the field of environmental protection, it can be used to study the thermal decomposition and gasification of pollutants.