| Customization: | Available |
|---|---|
| After-sales Service: | 1 Year |
| Power Supply: | AC 380V |
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Thermal shock test chamber is a necessary testing equipment in the metal, plastic, rubber, electronics and other material industries. It is used to test the degree of material structure or composite materials that can withstand extreme high and low temperature continuous environments in an instant. Detect chemical changes or physical damage caused by thermal expansion and contraction of the sample in the shortest time. The hot and cold shock test chamber meets the test methods: GB/T2423.1.2, GB/T10592-2008, GJB150.3 high and low temperature impact test.
High and low temperature impact test chambers are used in electronic and electrical components, automation components, communication components, auto parts, metals, chemical materials, plastics and other industries, defense industry, aerospace, ordnance industry, BGA, PCB base plate, electronic chip IC, semiconductor Physical changes in ceramics and polymer materials, testing the material's repeated resistance to high and low temperatures and the chemical changes or physical damage of the product due to thermal expansion and contraction, can confirm the quality of the product, from precision IC to heavy machinery All components are used, and it is an indispensable test box for product testing in various fields.
•GB-2423.1-2008(IEC68-2-1) Test A: Low Temperature Test
•GB-2423.2-2008(IEC68-2-2) Test B: High Temperature Test
•GJBl50.3-2009(MIL-STD-810D) High Temperature Test
•GJBl50.4-2009(MIL-STD-810D) Low Temperature Test
•GJBl50.5-2009 Temperature shock test method
1. Use the internationally accepted energy storage method to conduct impact tests at hot and cold temperatures.
2. Touch-sensitive color LCD display human-machine interface controller, easy to operate.
| Main Specifications | ||
| Cabinet: | ||
| Studio size | Approximately W 800 × H 850 × D 600 (mm) (W width × H height × D depth) |
|
| Dimensions | Approximately W 800 × H 850 × D 600 (mm), subject to the actual object | |
| Volume | 408L | |
| Noise | Within 75dB (measured 1 meter from the front of the machine and 1.2 meters from the ground) | |
| Temperature: | ||
| High temperature zone |
Temperature range | RTºC~+200ºC |
| Heating time | RT~+200ºC: about 30min | |
| Low temperature zone |
Temperature range | RT~-55ºC |
| Cooling time | RT~-55ºC: about55min | |
| Studio |
Temperature shock range | -65ºC~+150ºC |
| Temperature fluctuation | ≤±0.5 | |
| Temperature deviation | ≤±2ºC | |
| Temperature uniformity | ≤2ºC | |
| Temperature conversion time | ≤10s(Damper opening time) | |
| Temperature recovery time | ≤4min | |
| Operation mode | There are two high and low temperature impact modes and high and low temperature + room temperature impact modes, which can be set by the human-machine interface. | |
| High and low temperature shock mode | 150ºC(30min)-NC--40ºC(30min) | |
| High and low temperature + room temperature impact mode | 150ºC(30min)-room temperature--40ºC(30min) | |
| Power | High greenhouse power: 9KW Low temperature greenhouse power: 9KW Other power about: 2KW Maximum power about: 20KW Operating power approximately: 12KW |
|
| Voltage | Power requirements: 380V 50HZ three-phase five-wire system plus ground wire Power: 20KW Current 40A |
|
| Condensation method | Water cooling | |
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