Wide temperature zone test: It can realize the simulation of extreme high temperature and low temperature environment, and the temperature range is usually from -70 ° C to + 150 ° C, which can meet the requirements of heat and cold resistance test of various products.
Temperature uniformity and accuracy: a high-precision temperature control system is used to ensure the uniform distribution of temperature in the test chamber, and the temperature accuracy can usually reach ± 0.5 ° C or higher.
Low pressure simulation: It can simulate the low pressure environment in high altitude areas and effectively test the performance of products under plateau or aviation flight conditions.
Precise control: The low air pressure range can be adjusted to 0.5kPa or lower, and a stable air pressure level can be maintained to simulate the real low air pressure conditions.
High heating and cooling efficiency: with the function of rapid heating and cooling, some equipment can achieve a temperature change rate of several degrees Celsius per minute to meet the test requirements of products in rapid environmental changes.
Flexible temperature change curve: The temperature change curve can be programmed to achieve different temperature rise and fall rates to simulate complex environmental conditions.
High durability material: The internal structure is usually made of corrosion-resistant stainless steel to ensure the long-term stability of the equipment under extreme temperature and low air pressure.
Multi-layer thermal insulation design: the box has good thermal insulation and heat preservation performance to reduce temperature fluctuations and energy consumption and improve the accuracy of the test.
Flexible expansibility: Some test chambers adopt modular design, and users can add humidity control, vibration test and other functional modules according to test requirements to realize joint test under multiple environmental conditions.
Easy to maintain and upgrade: The modular design makes the repair, maintenance and upgrade of the equipment more convenient and reduces the long-term use cost.
Synchronized control of temperature and atmospheric pressure: The functions of high and low temperature and low atmospheric pressure can be operated simultaneously to simulate more complex environmental conditions, such as low temperature and low atmospheric pressure at high altitude.
Test the performance of aircraft and spacecraft in high-altitude and low-pressure environments to ensure that they can work properly under extreme conditions.
Evaluate the stability and reliability of electronic equipment at high temperature, low temperature and low air pressure, especially in aerospace and military equipment.
test the durability and functionality of automotive components and systems under various temperature and pressure conditions.
Study the physical and chemical properties of materials at different temperatures and pressures to help develop new materials or improve the performance of existing materials.
ensure that communication equipment can work stably under extreme environmental conditions, such as satellite communication system and high-altitude communication equipment.
test the reliability of medical equipment in extreme environments to ensure normal use in different climatic conditions.
