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The Two-Zone Thermal Shock Chamber (also termed Thermal Shock Test Chamber or Temperature Cycling Chamber) is engineered to evaluate material and product reliability under extreme and rapid temperature transitions. It simulates thermal shock conditions by transferring specimens between two isolated zones—a high-temperature chamber and a low-temperature chamber—enabling precise stress testing for aerospace, automotive, electronics, and semiconductor industries
|Technical Specifications:
Dual-Zone Design: Separates high-temperature (up to 150°C) and low-temperature (-60℃)zones with a vertical basket for rapid sample transfer.
Ultra-Fast Switching: Achieve 10s temperature transitions, exceeding IEC 60068-2-13 requirements.
Robust Construction: Stainless steel interior (SUS 304) and insulation layers ensure thermal efficiency and durability.
Cooling Method: Air/Water Cooled
Control System: PID controllers with ±0.5°C stability and real-time monitoring via 7-inch touchscreen
|Core Advantages:
✅ Space Efficiency: Vertical stacking design reduces lab footprint by 30% vs tranditional chambers.
✅ Customizable Configurations:Optional vibration integration for mechnical-environmental stress tests.
✅ Safety Features: Auto-fire suppression, pressure relief valves, and real-time alarms.
✅ Broad Applications: Validated for EV batteries (GB38031-2020), aerospace components (MIL-STD-810D), and consumer electronics.
|Customization Options
Size Adjustments: Custom chamber dimensions to accommodate large specimens (e.g., automotive battery packs).
Humidity Integration: Optional humidity control (-50% to 95% RH) for hygroscopic material testing.
Automation: Programmable multi-stage cycles and data logging for ISO 9001 compliance.
| Application Scenarios
Aerospace: Validate component performance under thermal cycling (e.g., satellite parts).
Automotive: Test ECU durability for extreme road conditions.
Electronics: Assess PCB solder joint reliability and semiconductor thermal stress.
Materials Science: Analyze polymer expansion coefficients and coating adhesion.
|Compliance Standards
IEC 60068-2-14 (Environmental Testing)
MIL-STD-810G (Mechanical Vibration)
GB/T 2423.22 (Temperature Cycling)
|Why Choose Us?
ISO 9001 Certified Manufacturer with 13+ years of R&D experience
Customizable Configurations: Support non-standard sizes and temperautre ranges per project needs.
Global Compliance: Meets IEC, GB, GJB, and UL standards
Global Recognition: Trusted by Fortune 500 companies and R&D labs worldwide.
The Two-Zone Thermal Shock Chamber (also termed Thermal Shock Test Chamber or Temperature Cycling Chamber) is engineered to evaluate material and product reliability under extreme and rapid temperature transitions. It simulates thermal shock conditions by transferring specimens between two isolated zones—a high-temperature chamber and a low-temperature chamber—enabling precise stress testing for aerospace, automotive, electronics, and semiconductor industries
|Technical Specifications:
Dual-Zone Design: Separates high-temperature (up to 150°C) and low-temperature (-60℃)zones with a vertical basket for rapid sample transfer.
Ultra-Fast Switching: Achieve 10s temperature transitions, exceeding IEC 60068-2-13 requirements.
Robust Construction: Stainless steel interior (SUS 304) and insulation layers ensure thermal efficiency and durability.
Cooling Method: Air/Water Cooled
Control System: PID controllers with ±0.5°C stability and real-time monitoring via 7-inch touchscreen
|Core Advantages:
✅ Space Efficiency: Vertical stacking design reduces lab footprint by 30% vs tranditional chambers.
✅ Customizable Configurations:Optional vibration integration for mechnical-environmental stress tests.
✅ Safety Features: Auto-fire suppression, pressure relief valves, and real-time alarms.
✅ Broad Applications: Validated for EV batteries (GB38031-2020), aerospace components (MIL-STD-810D), and consumer electronics.
|Customization Options
Size Adjustments: Custom chamber dimensions to accommodate large specimens (e.g., automotive battery packs).
Humidity Integration: Optional humidity control (-50% to 95% RH) for hygroscopic material testing.
Automation: Programmable multi-stage cycles and data logging for ISO 9001 compliance.
| Application Scenarios
Aerospace: Validate component performance under thermal cycling (e.g., satellite parts).
Automotive: Test ECU durability for extreme road conditions.
Electronics: Assess PCB solder joint reliability and semiconductor thermal stress.
Materials Science: Analyze polymer expansion coefficients and coating adhesion.
|Compliance Standards
IEC 60068-2-14 (Environmental Testing)
MIL-STD-810G (Mechanical Vibration)
GB/T 2423.22 (Temperature Cycling)
|Why Choose Us?
ISO 9001 Certified Manufacturer with 13+ years of R&D experience
Customizable Configurations: Support non-standard sizes and temperautre ranges per project needs.
Global Compliance: Meets IEC, GB, GJB, and UL standards
Global Recognition: Trusted by Fortune 500 companies and R&D labs worldwide.
