Temperature and Humidity Test Chamber
Environmental Test Chamber
LAB1ST temperature and humidity test chamber is a specialized enclosure designed to simulate and control environmental conditions of temperature and humidity for the purpose of testing various materials, products, and components.
These chambers play a critical role in industries such as electronics, automotive, pharmaceuticals, and materials science by providing controlled environments that mimic real-world conditions.
Produktart
Key Facts
Temperature Control
Typically control temperatures from below freezing to very high temperatures, such as -70℃~150℃ [-94°F~302°F] and -40℃~150℃ [-40°F~302°F].
Humidity Control
Regulate humidity levels, creating conditions from very dry to highly humid environments, standard 20% - 98% RH, or optional 10%-98% RH / 2%-10% RH.
Rapid Heating/Cooling Change
Our TCH-V-R series chambers achieve rapid heating and cooling rates with 5°C/min, 10°C/min, and 15°C/min.
Specifications
Series | TCH*F | TCH*V | TCH*V-R* |
---|---|---|---|
Model | TCH50F, TCH100F, TCH225F, TCH500F, TCH1000F | TCH50V, TCH100V, TCH225V, TCH500V, TCH1000V | TCH*V-R5, TCH*V-R10, TCH*V-R15 |
Type | Floor-stand reach-in design | Floor-stand reach-in design | Floor-stand reach-in design |
Temperature Range | -40°C to 150°C | -70°C to 150°C | -70°C to 150°C |
Rapid Temperature Change Range | - | - | -40° to 120°C |
Humidity Control | 20% - 98% RH | 20% - 98% RH | 20% - 98% RH |
Standard Chamber | 50L, 100L, 225L, 500L, 1000L | 50L, 100L, 225L, 500L, 1000L | 50L, 100L, 225L, 500L, 1000L |
Heating Rate | 3.0-5.0 C/min | 3.0-5.0 C/min | R5: 5 C/min
R10: 10 C/min
R15: 15 C/min |
Cooling Rate | 0.7-1.5 C/min | 0.7-1.5 C/min | R5: 5 C/min
R10: 10 C/min
R15: 15 C/min |
Model | TCH50F, TCH100F, TCH250F, TCH500F, TCH1000F | TCH50V, TCH100V, TCH250V, TCH500V, TCH1000V | TCH*V-R5, TCH*V-R10, TCH*V-R15 |
Anwendungen
Electronics
Testing electronic components and devices for reliability and performance under different climate conditions.
Automotive
Assessing the durability of automotive parts and systems to ensure they can withstand varying environmental conditions.
Pharmaceuticals
Testing drug stability and packaging under controlled humidity and temperature conditions.
Materials Science
Studying how different materials degrade or behave in response to environmental changes.