Dandong Tongda High Temperature Accessory is a precision instrument specifically designed for material research in high-temperature environments. It enables real-time observation and analysis of samples under high-temperature conditions, helping researchers obtain dynamic change information of materials at elevated temperatures.

The Dandong Tongda High Temperature Accessory demonstrates outstanding technical performance, capable of meeting the demands of most high-temperature experimental environments.

Depending on the experimental environment, the temperature range of the accessory varies: in an inert gas atmosphere, the temperature can range from room temperature to 1200°C; in a vacuum environment, the maximum temperature can reach 1600°C.

Such a wide temperature range allows the accessory to adapt to various complex research scenarios, providing comprehensive technical support for studying material behavior at high temperatures.

In terms of temperature control, the accessory also performs exceptionally well, with a control accuracy of up to ±0.5°C. This ensures high stability during experiments, offering a solid guarantee for the accuracy and reproducibility of experimental data.

The High Temperature Accessory's design and construction reflect a balance between professionalism and practicality.

The accessory uses polyester film as the window material, a choice that ensures both good observation clarity and stability in high-temperature environments.

The cooling system employs deionized water circulation cooling, effectively ensuring the stable operation of the equipment under prolonged high-temperature conditions and extending its service life.

This design considers the requirements of long-duration high-temperature experiments, allowing researchers to conduct continuous observations without worrying about equipment overheating.

Whether studying crystal structure phase transitions, material thermal expansion behavior, or observing chemical reactions of materials at high temperatures, this accessory can provide intuitive and accurate experimental data.

In materials science research, this accessory can be used to study the thermal performance and stability of various new materials;

In the field of electronics, it can analyze the structural changes and performance characteristics of electronic materials under high-temperature environments;

In the environmental protection industry, it can be applied to study the structural transformations and reaction mechanisms of eco-friendly materials when treating high-temperature pollutants.