SAIC

After prolonged use of a temperature and humidity test chamber, certain components or systems may develop issues, such as sediment buildup in the water system. To ensure accurate test results, regular cleaning of the water system is essential.

With the continuous tightening of ingress-protection requirements in automotive electronics, low-voltage power distribution and photovoltaic industries, repeatable, quantifiable and traceable artificial-rain testing has replaced the traditional “splash-and-inspect” approach and become the core means of verifying sealing performance.

Customers familiar with high-low temperature humidity test chambers know that the equipment is equipped with observation windows, allowing them to monitor the progress and changes during testing.

As a testing device that simulates atmospheric corrosion environments, the salt spray test chamber, like other equipment, requires operators to follow specific procedures to ensure smooth and accurate testing, personnel safety, equipment protection, and extended service life.

In modern industrial practices, evaluating material corrosion resistance has become a critical quality control procedure. As the core testing equipment, salt spray chambers simulate various environmental parameters to deliver four distinctive testing modalities: