SAIC

Product reliability is no longer governed solely by design rules and manufacturing precision; it is equally decided by a product’s ability to survive sudden climatic extremes. Among all environmental stressors, rapid temperature change is the single most frequent root-cause of field failures in electronic components, automotive assemblies, and aerospace hardware.

Calibrating the temperature of a constant temperature and humidity test chamber is a preparatory task before testing. So, how can you ensure proper calibration of the test equipment? Only after adjusting the temperature of the chamber can testing proceed normally.

Cold and hot shock test chambers utilize high-temperature and low-temperature zones during testing.

The humidification process in a constant temperature and humidity test chamber essentially involves increasing the water vapor partial pressure. The initial humidification method was to spray water onto the chamber walls and control the water temperature to regulate the saturation pressure of the water surface.

Cold and hot shock test chambers are widely used in various industries such as automotive parts, communications, plastics, aerospace, chemical materials, LED, and electronic testing.