Search for the product you are looking for
研发中心

News

Slide down

Remember These Tips for Better Protection of Your Temperature and Humidity Alternating Test Chamber

Source:LINPIN Time:2025-03-17 Category:Industry News

Given that temperature and humidity alternating test chambers are expensive, it is crucial to keep certain precautions in mind when using the equipment to ensure better protection and maximize its value.
As a device capable of simulating high-temperature, low-temperature, and humid climate conditions, the temperature and humidity alternating test chamber employs high-precision microcomputer touch-controlled temperature and humidity regulation, combined with a wind speed circulation system. This ensures accurate, stable, and uniform control over temperature and humidity.

High and Low Temperature Alternating Humidity Test Chamber
We understand that different temperatures and humidity levels can cause varying effects on products. In other words, to determine the tolerance of test materials’ structure under extreme high and low-temperature conditions, users simply need to place the products inside the test chamber. Without relying on external environmental changes, the chamber can quickly reveal the chemical and physical changes caused by thermal expansion and contraction within a very short time.
When any precision instrument encounters a problem, it should not be taken lightly. If the cause of the malfunction is unknown, do not disassemble the test equipment casually. Otherwise, not only will you fail to identify and resolve the issue, but you may also cause secondary damage to the device.
Furthermore, when the test equipment is in operation, especially after a low-temperature cycle, it is advisable to dry the chamber at a temperature of 60°C. After approximately 30 minutes, you can open the test chamber door. This practice helps prevent evaporator icing and ensures stable test durations.
Additionally, during the testing process, avoid opening the chamber door unless absolutely necessary. At that time, the chamber is at a high temperature. Opening the door abruptly can cause hot air to rush out, potentially leading to fires and causing personal injury. Moreover, frequent door openings during testing can also damage the compressor, affecting the test results and causing more harm to the temperature and humidity alternating test chamber.

 

News Recommendation
Salt-spray corrosion testing is the primary accelerated method for validating the corrosion resistance of materials and their protective coatings. Whether a chamber can continuously generate neutral (NSS), acetic-acid (AASS) or copper-accelerated acetic-acid (CASS) salt fog for 48 h–1 000 h determines the repeatability and reproducibility of the test.
UV aging test chambers are designed to simulate three environmental conditions to evaluate the performance parameters of objects under ultraviolet (UV) radiation and other factors.
If the temperature recovery time falls outside the specified range, it can affect the test results of the thermal shock chamber. To routinely test the temperature recovery time of the equipment, you can follow the steps below.
Correct operation of the temperature control system of a salt spray test chamber is extremely important because it ensures the accuracy of the test.
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.
Product Recommendation
Telegram WhatsApp Facebook VK LinkedIn