Accurate temperature control: The chamber provides consistent high temperatures, typically exceeding 100 ° C, and has advanced temperature regulation capabilities for precise simulation.
Stable and uniform environment: Ensure that the temperature is evenly distributed throughout the entire testing area, providing reliable and reproducible results.
製品パラメーター
| Aging Chambers | EWG2003 | EWG3003 | EWG2010 | EWG3010 |
|---|---|---|---|---|
| Test Space Volume (L) | 270 | 1000 | ||
| Temp. Range (°C) | R. T+20~200 | R. T+20~300 | R. T+20~200 | R. T+20~300 |
| Temp. Constancy (°C) | ±0. 1~±0. 8 | |||
| Temp. Homogeneity (°C) | ±0. 5~±2. 0 (RT+20°C~+200°C) , ±1. 5~±3. 5 (200°C~+300°C) | |||
| Temp. Deviation (°C) | ±0. 5~±2. 0 (RT+20°C~+200°C) , ±0. 5~±2. 0 (200t~+300°C) | |||
| Heat Up Time (min) | 50 (RT→+200°C) , 90 (RT→+300°C) | |||
| Test Space Dimension (mm) | 600Wx500Dx900H | 850Wx700Dx1000H | ||
| External Dimension (mm) | 1000Wx780Dx1710H | 1250Wx980Dx1850H | ||
| Power | AC380V±10%, 50HZ, 3/N/PE | |||
| Aging Rooms | EWG25 | EWG45 | EWG100 | EWG120 |
| Test Space Volume (m3) | 25 | 45 | 100 | 120 |
| Temp. Range (°C) | RT+10~85 | |||
| Temp. Constancy (°C ) | ±0. 5~±1. 0 | |||
| Temp. Homogeneity (°C) | ±1. 5~±3. 0 | |||
| Temp. Deviation (°C) | ±1. 5~±3. 0 | |||
| Heating Rate (°C/min) | 2°C/min on average | |||
| Power | AC380V±10%, 50HZ, 3/N/PE | |||
Key Features:
Accurate temperature control: The chamber provides consistent high temperatures, typically exceeding 100 ° C, and has advanced temperature regulation capabilities for precise simulation.
Stable and uniform environment: Ensure that the temperature is evenly distributed throughout the entire testing area, providing reliable and reproducible results.
Advanced security mechanisms: including built-in functions such as over temperature protection, alarms, and fault safety mechanisms to ensure safe operation.
Energy efficiency: aims to minimize energy consumption while maintaining the required temperature conditions.
Programmable control system: allows users to set specific test durations, temperature ranges, and other parameters as needed.
Application:
Material aging test: used to test the aging performance of rubber, plastic, coatings, and other materials that may degrade over time due to heat.
Electronic testing: can be used to test the performance of electronic components and devices, ensuring that they can withstand the heat of real-world operating environments.
Automotive industry: Help evaluate the long-term durability of automotive components (such as seals, gaskets, and interior materials) under high temperature conditions.
Battery testing: Evaluating the stability and lifespan of batteries, especially electric vehicle batteries, by simulating prolonged exposure to high temperatures.
Consumer electronics products: used to test the thermal elasticity of smartphones, laptops, and other consumer electronics products that may be exposed to high temperatures during use.
Aerospace and Defense: Ensure that components meet strict high-temperature performance standards used in aircraft, spacecraft, and defense equipment.
