Product Introduction
The high and low temperature (three box) thermal shock test chamber is a device used to test the durability and stability of materials under extreme temperature changes. It evaluates the thermal shock conditions that a product may encounter during actual use by simulating the rapidly changing environment between high and low temperatures.

Main functions:
Fast temperature conversion: It can achieve rapid conversion between high and low temperatures in a short period of time, usually completed within a few seconds.
Precise control: With precise temperature control and uniform temperature distribution, it ensures the accuracy and repeatability of test results.
Reliability and Durability: Designed to be sturdy and capable of withstanding high-intensity cold and hot shock tests for a long time, ensuring the long-term stable operation of the equipment.
Multi functional testing: Multiple tests can be conducted, including thermal shock, cold shock, and continuous cold hot cycle tests, suitable for testing needs of various materials and products.

Product Features
1. Modern design, latest modular manufacturing technology, perfect control capability.
2. The test chamber shall be defrosted once after a cycle of 700 hours or more.
3. The patented design pioneered the use of observation windows to achieve visual effects in object measurement.
4. The color screen 32-bit control system is managed through Ethernet and has USB data access function.
5. Programmable load power supply with 4-channel ON/OFF output control, protecting the safety of the tested product and equipment.
6. The anti condensation function and over temperature, windless, smoke protection function of the independent test sample.
7. It can expand the network video monitoring function and synchronize with data testing.
8. Scalable APP mobile integration management.
9. The most environmentally friendly cooling flow control, energy-saving and fast temperature rise and fall rate
10. Unique operating mode design, the box returns to room temperature after the experiment to protect the state of the test object.
11. Automatic reminder of maintenance time for control system equipment and software design function for fault medical records.
12. The device can expand remote service functions and provide teaching CDs for machine usage.

Application scenarios
1. Electronics and Electrical Industry:
Electronic components: Test the performance of chips, capacitors, resistors, diodes, etc. under rapid temperature changes to ensure that they can withstand sudden temperature changes in practical use.
Circuit board: Evaluate the thermal and mechanical stress of printed circuit boards (PCBs) under cold and hot shocks, and detect the reliability of solder joints and connectors.
Consumer electronics products: Conduct thermal shock tests on mobile phones, computers, cameras, etc. to ensure their normal operation under different environmental temperatures.

2. Automotive industry:
Automotive Electronics: Testing the performance of electronic devices such as onboard computers, sensors, and displays under rapid temperature changes to ensure their reliability under different climatic conditions.
Automotive components: Conduct thermal shock tests on engine components, headlights, dashboard, etc. to evaluate their durability and stability under extreme temperature changes.

3. Aerospace:
Spacecraft components: Test the temperature shock resistance of internal and external components of the spacecraft under simulated space environment conditions.
Aviation electronic equipment: Evaluate the reliability of aircraft electronic systems in high-altitude temperature changes to ensure flight safety.

4. Materials Science:
New Material Research: Testing the physical and chemical properties of materials under rapid temperature changes, such as thermal expansion coefficient, crack resistance, etc.
Composite materials: Evaluate the interfacial bonding strength and durability of composite materials under thermal shock conditions.

5. Communication industry:
Communication equipment: Test the performance of base stations, routers, switches, etc. under different temperature conditions to ensure stable operation of communication equipment under various climatic conditions.
Fiber optic components: Evaluate the performance of optical fibers and fiber amplifiers in temperature fluctuations to ensure communication quality.

6. Pharmaceutical and Biotechnology:
Drug stability: Conduct thermal shock testing on drugs to evaluate the impact of temperature changes they may experience during transportation and storage on their efficacy.
Biological products: testing the stability and effectiveness of vaccines and reagents under different temperature conditions.

7. Military and Defense:
Weapon system: Test the performance of military equipment such as missiles and radars in extreme temperature changes to ensure their reliability in various battlefield environments.
Military electronic equipment: Evaluate the stability of communication equipment, navigation systems, etc. in rapid temperature changes.