Get Quote
Price: $27180
Thermal Shock Test Chamber TZ-CTS102 with 150L capacity enables efficient testing of larger or multiple samples under extreme temperature shifts. This includes separate hot, cold, and test zones to enable rapid temperature transitions and ensure accurate thermal shock testing. It is crafted with flame-retardant PU insulation to ensure superior safety and thermal efficiency during testing. Our thermal shock test chamber is equipped with compressors to ensure fast and stable temperature control.
Specification
| Capacity | 150L |
|---|---|
| Temperature Shock Range | -40℃ to 150℃ |
| Pre-cooling Zone Temperature | -10℃ to -80℃ |
| Pre-heating Zone Temperature | +50℃ to +220℃ |
| Temperature Fluctuation | ≤ ±0.5℃ |
| Temperature Recovery Time | ≤ 5 mins |
| Exposure Time | <30 mins |
| Cooling Type | Water Cooling |
| Pre-cooling Zone Cooling Rate | -10℃ to -40℃ < 30 mins |
| Pre-heating Zone Heating Rate | +50℃ to 150℃ < 30 mins |
| Data Interface | USB, RS485 |
| Thermal Shock Type | Three - Zone configuration (Hot / Cold / Test) |
| Internal Dimensions (W × H × D) | 500 × 600 × 500 mm |
| External Dimensions (W × H × D) | 1450 × 2200 × 1700 mm |
Features
Includes touchscreen PLC control
Crafted with stainless steel interior
Provides real-time data acquisition
Fast temperature recovery cycle
Separate hot, cold, and test zones
Applications
Thermal Shock Test Chamber TZ-TSC102 simulates rapid temperature shifts to evaluate material reliability, making it essential for industries such as electronics, automotive, aerospace, defense, plastics, and research laboratories.
Testoz Thermal Shock Test Chamber ensures reliable material durability by rapidly transitioning between heat and cold zones, simulating extreme temperature shifts. These provide remote monitoring capabilities for real-time control, ensuring efficient testing. Their outer construction with flame-retardant PU insulation enhances safety and thermal efficiency under extreme test conditions. The fast temperature recovery cycle minimizes downtime between transitions, enhancing test efficiency. Our Thermal Shock Test Chamber includes compressors for the precise temperature control throughout operation.
Testoz Temperature and Humidity Test Chamber offers a wide range of temperatures and precise humidity control for various material testing. They are designed for uniformity and utilize an efficient airflow system to maintain consistent conditions. These feature programmable test profiles that enable users to create custom testing sequences for specific materials or products. Our chambers are crafted with high-quality stainless steel for durability and reliable performance. They comply with all the standards such as ASTM D 3532, IEC 60068-2-30, MIL-STD-810, IEC 60529, ISO 2233 & ASTM E104.
Our Salt Spray Test Chamber offers a wide range of capacities and is designed for high-precision corrosion testing for evaluating the long-term durability of materials and coatings. These chambers are built with corrosion-resistant materials such as fibreglass-reinforced plastic to ensure maximum longevity and performance. They feature advanced temperature control for precise regulation, ensuring optimal conditions for salt spray exposure. Our chamber includes programmable timers and automatic solution replenishment for continuous and long-term testing. These are certified to meet ASTM B117, ISO 9227, and DIN 50021 standards, and are ideal for testing corrosion resistance in automotive, aerospace, coatings, and metal finishes.
Xenon Test Chambers are equipped with precise temperature and humidity control systems, allowing users to adjust conditions to meet specific testing requirements. They are designed to utilize a xenon arc lamp providing an accurate representation of environmental stress factors. These chambers feature program customizable test cycles and accelerate weathering and degradation processes. They offer real-time monitoring, ensuring that environmental parameters are consistently maintained throughout the test for easy operation and data collection. They provide critical insights into material behavior and improve product design, ensure compliance with industry standards, and facilitate product certification processes.
