Product Overview
Three-Zone Thermal Shock Chamber delivers unparalleled accuracy in thermal shock testing, simulating extreme temperature transitions to validate product durability. Designed for electronics, automotive, and aerospace industries, this chamber eliminates mechanical movement of samples, ensuring consistent electrical connectivity and reducing wear. With <5-minute recovery time and compliance with IEC/GB standards, it supports multi-stage testing (e.g., thermal shock + vibration) for comprehensive reliability assessment.
|Key Technical Features
Triple-Zone Design: Independent high-temp, low-temp, and ambient zones enable seamless thermal cycling.
Zero-Movement Testing: Samples reamin stationary, preserving electrical connections and reducing machanical wear.
Ultra-Fast Recovery: Achieves temperature uniformity (±1.5℃) within 5mins after mode switching.
Energy-Efficient Cooling: Advanced refrigeration systems with rapid temperature cycling (20℃ to -55℃ in ≤30mins)
Intelligent Controls: 7-inch touchscreen HMI for programming multi-stage tests.
Integrated safety systems: Over-temperature/under-temperature alarms, compressor overload protection, and leakage detection.
Durable construction: 1.2 mm SUS304 stainless steel for corrosion resistance, equipped with door interlock, E-stop, and phase-loss protection.
Technical Specification
| Model | DBST-336 |
| Internal Dimension | 700×600×800(W*D*H/mm) |
| External Dimension | 1700×2200×2650(W*D*H/mm) |
| Pre-heating Range | +60℃~+220℃ |
| Heating Rate | 3℃/min ( unload, average) |
| Pre-cooling Range | 0℃~-80℃ |
| Cooling Rate | 1℃/min (unload, average) |
| Temperature Accuracy | 0.01 ℃ |
| Temperature Uniformity | ≤2℃ |
| Temperature Fluctuation | ≤±0.5℃ |
| Temperature Deviation | ≤±2℃ |
| Thermal Shock Range | A: -20℃~+180℃; B:-40℃~+180℃; C: -55℃~+180℃; D: -65℃~+180℃ |
| Transer Time | ≤10s |
| Recovery Time | ≤5mins |
| Holdover Time | ≥30mins |
| Cooling Method | Water-cooling |
| Driving Device | Cylinder Drive |
| Power Supply | 380V, 50Hz, ±10% 3/N/PE |
Application Scenarios
EV Battery Validation: Cycle life testing under thermal shock and fast-charging conditions.
Grid Storage Testing: Long-term deep discharge and fire resistance evaluation.
Aerospace Certification: High-altitude pressure simulation and vibration resistance.
Material Science: Polymer resilience, metal fatigue testing.
Automotive: Engine components, EV battery systems.
Why Choose Us
Custom Solution: Adjustable capacity and temperature profiles per project needs
Advanced Safety: SDual-layer insulation, real-time alarms, and emergency shutdown.
Global Certification: CE, and ISO 9001 certified.
Global Recognition: Trusted by Fortune 500 companies and R&D labs worldwide.
Ideal For Testing
Battery modules under thermal cycling.
PCB solder joint reliability.
Aerospace component thermal stress resistance.
Product Overview
Three-Zone Thermal Shock Chamber delivers unparalleled accuracy in thermal shock testing, simulating extreme temperature transitions to validate product durability. Designed for electronics, automotive, and aerospace industries, this chamber eliminates mechanical movement of samples, ensuring consistent electrical connectivity and reducing wear. With <5-minute recovery time and compliance with IEC/GB standards, it supports multi-stage testing (e.g., thermal shock + vibration) for comprehensive reliability assessment.
|Key Technical Features
Triple-Zone Design: Independent high-temp, low-temp, and ambient zones enable seamless thermal cycling.
Zero-Movement Testing: Samples reamin stationary, preserving electrical connections and reducing machanical wear.
Ultra-Fast Recovery: Achieves temperature uniformity (±1.5℃) within 5mins after mode switching.
Energy-Efficient Cooling: Advanced refrigeration systems with rapid temperature cycling (20℃ to -55℃ in ≤30mins)
Intelligent Controls: 7-inch touchscreen HMI for programming multi-stage tests.
Integrated safety systems: Over-temperature/under-temperature alarms, compressor overload protection, and leakage detection.
Durable construction: 1.2 mm SUS304 stainless steel for corrosion resistance, equipped with door interlock, E-stop, and phase-loss protection.
Technical Specification
| Model | DBST-336 |
| Internal Dimension | 700×600×800(W*D*H/mm) |
| External Dimension | 1700×2200×2650(W*D*H/mm) |
| Pre-heating Range | +60℃~+220℃ |
| Heating Rate | 3℃/min ( unload, average) |
| Pre-cooling Range | 0℃~-80℃ |
| Cooling Rate | 1℃/min (unload, average) |
| Temperature Accuracy | 0.01 ℃ |
| Temperature Uniformity | ≤2℃ |
| Temperature Fluctuation | ≤±0.5℃ |
| Temperature Deviation | ≤±2℃ |
| Thermal Shock Range | A: -20℃~+180℃; B:-40℃~+180℃; C: -55℃~+180℃; D: -65℃~+180℃ |
| Transer Time | ≤10s |
| Recovery Time | ≤5mins |
| Holdover Time | ≥30mins |
| Cooling Method | Water-cooling |
| Driving Device | Cylinder Drive |
| Power Supply | 380V, 50Hz, ±10% 3/N/PE |
Application Scenarios
EV Battery Validation: Cycle life testing under thermal shock and fast-charging conditions.
Grid Storage Testing: Long-term deep discharge and fire resistance evaluation.
Aerospace Certification: High-altitude pressure simulation and vibration resistance.
Material Science: Polymer resilience, metal fatigue testing.
Automotive: Engine components, EV battery systems.
Why Choose Us
Custom Solution: Adjustable capacity and temperature profiles per project needs
Advanced Safety: SDual-layer insulation, real-time alarms, and emergency shutdown.
Global Certification: CE, and ISO 9001 certified.
Global Recognition: Trusted by Fortune 500 companies and R&D labs worldwide.
Ideal For Testing
Battery modules under thermal cycling.
PCB solder joint reliability.
Aerospace component thermal stress resistance.
