Overview
KESIONOTS KS-OTS-LR150LB Thermal Shock Test Chamber is used to test the tolerance of material structures or composites in instantaneous extremely high temperature and extremely low temperature continuous environments, and to conduct rapid tests through chemical changes or physical damage caused by thermal expansion and contraction. Suitable for metals, plastics, rubber, electronics and other materials, providing basis or reference for product improvement.
Features
1. Adopt a three-box equipment structure, including a high-temperature zone, a low-temperature zone, and a test zone. The test product is statically placed in the test zone, and the temperature is introduced for testing during Impact.
2. Touch graphic control operation interface, easy to operate.
3. Impact mode adopts air path switching, and the temperature is introduced into the test area for Thermal Shock test.
4. The liner material is stainless steel, the outer box material is SUS304 #stainless steel plate matte surface treatment or cold tie steel plate nanotechnology advanced baking paint, and the thermal insulation material is high temperature resistant and high density chlorine-based formic acid vinegar foam insulator material.
5. The system adopts P.I.D + S.S.R + microcomputer equilibrate temperature control system, and the cooling down system can choose semi-closed double-stage Compressor (water-cooled) or fully closed double-stage Compressor (air-cooled).
6. Equipped with a variety of protection devices, including no fuse switch, Compressor high and low voltage protection switch, refrigerant high voltage protection switch, fault warning system, electronic alarm.
7. Accessories include viewing window (special optional type), two adjustable compartments up and down, power-on measuring holes, casters, and horizontal brackets.
Principle
The Thermal Shock Test Chamber adopts a three-box structure, with the high temperature zone, the low temperature zone and the test zone separated, and the test product is placed in the test zone. The temperature in the high temperature zone or the low temperature zone is quickly introduced into the test zone through the air passage switching mode to realize the Thermal Shock test. The system uses the P.I.D + S.S.R + microcomputer equilibrate temperature control system to precisely control the temperature change and simulate the material's tolerance performance in extreme temperature environments.
Applications
Metal, plastic, rubber, electronics
