Thermal Shock Test Chamber
Product Application
This product is widely used in electronics, automotive parts, plastics, and other industries, testing the repeated tensile and compressive resistance of various materials to high and low temperatures. It identifies chemical changes or physical damage caused by thermal expansion and contraction, determining the quality of products. From precise ICs to heavy machinery components, nothing requires its recognition.
Key Features
This equipment is divided into two sections: the high-temperature zone and the low-temperature zone. The test products are placed in a basket, which moves the test products into either the high-temperature or low-temperature zone during impact for shock testing, performing cold and hot shock tests. The test products are dynamic in nature.
This series of products features a vertical cabinet with a two-box cold and hot structure. It employs the method of transferring samples using a basket to the test area, achieving the purpose of cold and hot shock testing and shortening the temperature recovery time.
Equipped with a touch-color LCD controller, operation is simple, easy to learn, and the system status, execution, and setting curves are displayed in both Chinese and English.
Equipped with computer connection software, allowing for program design on the computer screen, collection of test data and records, execution of programs, remote control of machine power on/off, and other functions.
The function allows for independent setting of three different conditions: high temperature, low temperature, and thermal shock. During the thermal shock operation, you can choose between two-tank or three-tank operation, and it possesses the functionality of a high and low-temperature testing machine.
Automatically preheat and precool in the scheduled startup time control, and you can choose to start the cycle or shock from high or low temperatures at its actual location.
Equipped with fully automatic, high-precision circuit systems, any component movement is entirely locked and processed by the PLC, with high temperature control accuracy, and all controlled using PID automatic calculation.
Anomaly occurs during operation, the screen automatically displays the cause of the fault and the method to eliminate it, and features an emergency shutdown device upon detecting unstable power input.
The refrigeration system utilizes a binary low-temperature circuit design, featuring original imported compressors from Europe and America, and utilizes environmentally friendly refrigerants.
The interior of the cabinet is made of stainless steel (SUS 304*), while the exterior is constructed with SECC steel plate and powder-coated paint for enhanced aesthetic quality and purity.
Optional temperature linear DC signal output to a temperature recorder for understanding the test condition status, thereby enhancing detection reliability.
