Customized Constant Temperature and Humidity Chambers are engineered to meet the stringent demands of specialized testing environments. These chambers are tailored to accommodate unique specific ...
Customized Constant Temperature and Humidity Chambers are engineered to meet the stringent demands of specialized testing environments. These chambers are tailored to accommodate unique specifications, providing unparalleled performance in a variety of applications.
1. Customized Climate Control: Advanced systems allow for precise manipulation of temperature and humidity, ensuring conditions are maintained consistently for accurate testing outcomes.
2. Precision Engineering: Each chamber is crafted with meticulous attention to detail, providing a stable and uniform testing environment that is free from fluctuations.
3. Adaptable Configurations: These chambers can be customized in size and performance parameters, from small-scale units to large chambers capable of handling extensive testing needs.
4. Advanced Data Acquisition: Equipped with state-of-the-art sensors and data logging capabilities, these chambers provide real-time monitoring and comprehensive post-test analysis.
5. Rapid Conditioning: Innovative heating and cooling technologies enable the chambers to achieve desired conditions swiftly, reducing test cycle times significantly.
6. Compliance Assurance: Each chamber is designed to meet or exceed international testing standards, ensuring reliability and quality of test results.
1. Pharmaceutical Industry: For testing the stability of drugs and medical devices under controlled climatic conditions.
2. Aerospace Engineering: To evaluate the performance of materials and components in extreme temperature and humidity environments.
3. Automotive Testing: For assessing the durability of vehicle components under varying climatic conditions.
4. Research Institutions: To conduct experiments that require precise environmental control for accurate results.
5. Electronics Manufacturing: To ensure the reliability of electronic components in diverse climatic conditions.
6. Food Industry: For evaluating the shelf life and quality of food products under different temperature and humidity settings.
7. Material Science: To analyze the effects of environmental conditions on the properties of new materials.
| Model | DR-H201 |
| Temperature range | -70~+150℃ |
| Temperature fluctuation | ±0.5℃ |
| Temperature uniformity | 2℃ |
| Humidity range | 20~98%RH (Refer Image below) |
| Humidity fluctuation | ±2.5%RH |
| Humidity uniformity | 3%RH |
| Cooling speed | 1℃/min in average (without loading) |
| Heating speed | 3℃/min in average (without loading) |
| Internal chamber material | SUS#304 stainless steel, mirror finished |
| External chamber material | Stainless steel |
| Cooling method | Air cooling |
| Controller | LCD touch screen, programmable control temperature and humidity Can set different parameter for cyclic test |
| Insulation material | 50mm high density rigid Polyurethane foam |
| Heater | Explosion-proof type SUS#304 stainless steel fins radiator pipe heater |
| Compressor | France Tecumseh compressor |
| Lighting | Heat resistance |
| Temperature sensor | PT-100 dry and wet bulb sensor |
| Observation window | Tempered glass |
| Testing hole | Diameter 50mm, for cable routing |
| Sample tray | SUS#304 stainless steel, 2pcs |
| Safety protection device | Protection for leakage Over-temperature Compressor overvoltage and overload Heater short circuit Water shortage |
