
Quality & Accreditation
Certified systems.
Standards-led methodology.
The engineering side operates under integrated ISO 9001, 14001 and 45001 systems. The testing laboratory operates against ISO/IEC 17025. Both sides work exclusively to named international test standards.
ISO 9001:2015
Quality Management System
ISO 14001:2015
Environmental Management System
ISO 45001:2015
Occupational Health & Safety
ISO/IEC 17025
Testing & Calibration Laboratory
Standards Compliance
Every chamber, every test — cited to a published standard.
| Standard | Scope |
|---|---|
| IEC 60068 | Environmental testing — general procedures |
| MIL-STD-810 | Environmental engineering considerations |
| MIL-STD-883G | Test methods for microelectronic devices |
| ASTM B117 / G85 | Salt spray and cyclic corrosion |
| BS 2011 | Environmental testing (basic environmental) |
| JSS 55555 | Environmental test methods for military stores |
| IEC 60529 | Ingress protection (IP) classification |
| IEC 61215 / 61730 | Photovoltaic module qualification |
| RTCA DO-160 | Airborne equipment environmental conditions |
| UN 38.3 / IEC 62660 | Lithium-ion battery safety and cycling |
| ISO 9227 | Corrosion tests in artificial atmospheres |
| IS 9000 | Environmental testing (Indian Standard) |
Independence Principle
Globally-available components. Locally-serviceable systems.
Chambers are engineered around widely-available industrial components — refrigeration, sensors, controllers, valves — so client sites can source spares from any qualified supplier, anywhere. No proprietary lock-in. That deliberate design choice matters most late in a programme's life, when the original supplier is furthest away.