Temperature Chambers & Humidity Chambers
CSZ temperature and humidity test chambers simulate real-world environmental conditions to help manufacturers validate product reliability, durability, and performance. Our chambers support environmental testing applications including temperature cycling, thermal aging, accelerated life testing, stability testing, and humidity exposure testing. Available in benchtop, reach-in, and custom configurations, CSZ chambers provide precise environmental control for electronics, aerospace, defense, automotive, medical device, battery, and industrial product testing.
From reach-in chambers as small as 1.2 cu. ft. to units with 96 cu. ft. of workspace, we offer options to fit your application. If you need something larger, we can help with that too.
- Temperature ranges from -34°C, -40°C, or -70°C up to +190°C
- Humidity ranges from 10% to 98%, with lower-humidity options available
- Stackable chamber designs that save floor space while allowing you to test twice as much product in the same footprint
- Compact chamber options ideal for laboratory environments
- Temperature chambers with ramp rates from 1°C/min to 25°C/min for accelerated testing requirements
With standard sizes ranging from 8 cu.ft. to 96 cu.ft., our Z-Plus temperature test chambers meet the common temperature and humidity testing needs. For more unique test requirements, CT-Series chambers may be custom-designed to meet specific test applications.
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How do I determine what size temperature and humidity chamber I need?
The ideal chamber size depends on the dimensions of the product(s) under test, required airflow around the product, fixture size, and future testing needs. Selecting a chamber that is too small can negatively affect temperature uniformity and test results.
What factors affect the price of a temperature and humidity test chamber?
The cost of a temperature and humidity test chamber depends on temperature range, humidity capabilities, workspace size, ramp rates, refrigeration design, and customization requirements. Test chambers with single-stage refrigeration systems are typically more economical, while cascade refrigeration systems capable of reaching temperatures as low as -70°C generally require a larger investment. Faster heating and cooling rates can also increase cost, as higher-capacity refrigeration and heating systems are needed to achieve more aggressive ramp rates.