SAIC

Thermal shock test chambers, as precision testing equipment, rely heavily on compressed air for their stable operation. Regardless of the chamber's structural design, compressed air serves as a critical component in driving rapid temperature transitions and ensuring precise temperature control within the test zone.

A high and low-temperature test chamber is designed to simulate natural climatic conditions to test the high- and low-temperature resistance of products or materials under alternating temperature changes.

An aging test chamber does not refer to a single device but encompasses various testing methods, including xenon lamp aging tests, UV aging tests, high-temperature aging tests, air-exchange aging tests, and salt spray corrosion aging tests.

A high-temperature test chamber simulates extreme heat environments to evaluate the performance of test specimens. But how does prolonged exposure to high temperatures affect these specimens? This article explains the potential impacts of high temperatures on various materials.

With rapid economic growth and continuous technological advancements, the scientific and technological sophistication of temperature & humidity cycling test chambers has been steadily increasing.