Full-scenario testing capability
Temperature humidity chamber series achieve ±0.1°C temperature control and ±0.5%RH humidity accuracy ,enabling 24/7 cyclic tests from -70°C to +150°C for avionics components;
Thermal shock chamber models feature rapid transition ≤15s between extreme zones (-100°C↔+150°C), replicating orbital re-entry thermal stresses on satellite materials;
Military-grade reliability design
SUS304 stainless steel chambers with aerospace-grade sealing withstand 10,000+ thermal cycling chamber operations ;
Redundant safety systems (overheat protection, dual humidity sensors) prevent $1M+ prototype losses during unmanned tests ;
Our humidity test chamber solutions are validated by 8 critical certifications:
| Standard | Applicant | Core of certification |
|---|---|---|
| Chinese standard | Military stanard | GB2423.1/2, GJB150.3/4 |
| NATO requirements | Aviation structural component | MIL-STD-810G |
| International Electrotechnical Standards | Airborne electronic system | IEC 60068 |
Aviation application cases
✈ A military industrial group completed 2,000 thermal cycling tests of fighter engine blades using a thermal cycling chamber, and the failure rate decreased by 62%;
✈ European satellite maker used the thermal shock chamber to test the limits of solar panel materials through space environment simulation at -150 ° C /+250 ° C;
The direction of technological evolution
In 2025, the new-generation products will integrate:
AI predictive maintenance System (reducing downtime by 30%);
Liquid nitrogen-assisted ultra-low temperature module (extended to -196℃);
Comply with the test specifications of DO-160G airborne equipment.
