Products

Products

Tags

Latest News

Energy-Efficient vs. Conventional Temperature and Humidity Chambers

Difference Between Composite Salt Spray Test Chamber and Salt Spray Test Machine

How to Extend the Service Life of an Environmental Test Chambe

Energy-Saving Technologies and Innovations in Temperature and Humidity Test Chambers

Key Differences Between Linear and Non-Linear Rapid Temperature Change Test Chambers

Guangdong Derui Testing Equipment Co., Ltd. Anniversary Celebration

Features and Functions of the Custom Temperature and Humidity Test Chamber for Mobile Screen Bend Resistance Testing

Key Considerations for Custom-Built Temperature and Humidity Test Chambers

Key Differences Between Slanted UV Aging Test Chambers and Box-Type UV Aging Test Chambers

How to Ensure the Accuracy and Reliability of Programmable Temperature and Humidity Test Chamber Results

Best xenon aging chamber for automotive part durability testing

Inquire Now

Description

1728722268428959

The optimal xenon arc aging chamber for automotive component durability testing is a highly specialized piece of equipment designed to simulate the long-term effects of sunlight and weathering on various automotive parts. This advanced tool is instrumental in assessing the durability, longevity, and performance of automotive components, ensuring they meet stringent quality and reliability standards in real-world conditions.

1729046322711117

The xenon arc aging chamber is extensively used in the automotive industry to evaluate the weathering resistance of a wide range of components. These include exterior and interior trims, paint coatings, plastic parts, rubber seals, textiles, and electronic components. By simulating real-world exposure to UV light, moisture, and heat, these chambers help identify potential degradation issues, ensuring that automotive components maintain their aesthetic and functional properties over time. This testing is crucial for enhancing vehicle safety, reliability, and customer satisfaction, as it replicates the harsh environmental conditions that automotive parts may encounter throughout their lifecycle.

1729046539448928

1. Precise UV Simulation: The chamber employs xenon arc lamps that accurately replicate the UV spectrum of natural sunlight, providing precise simulation of outdoor exposure conditions specific to automotive components.

2. Controlled Environmental Parameters: The chamber offers precise control over temperature, humidity, and light intensity, enabling the creation of various weathering scenarios tailored to automotive applications.

3. Uniform Light Distribution: Advanced optical systems ensure uniform light distribution across the test samples, providing consistent exposure and accurate test results for automotive components.

4. Dynamic Weathering Cycles: The chamber can simulate complex weathering cycles, including variations in light intensity, temperature, and humidity, replicating real-world environmental conditions encountered by automotive parts.

5. User-Friendly Interface: Equipped with an intuitive control panel or advanced software interface, users can easily set, monitor, and adjust testing parameters, enhancing the efficiency and accuracy of the testing process.

6. Comprehensive Data Logging: The chamber includes comprehensive data logging capabilities, enabling real-time monitoring and post-test analysis of environmental conditions and material performance.

7. Accelerated Testing: The chamber accelerates the weathering process, providing quick and accurate assessments of the durability and longevity of automotive components, crucial for product development and quality control.

1729046559336468

Operating Procedure

1. Sample Preparation: Prepare the automotive components to be tested, ensuring they are clean and free from contaminants that could affect the test results.

2. Chamber Setup: Position the samples within the chamber, ensuring they are secured and evenly distributed to receive uniform exposure.

3. Parameter Configuration: Use the control panel or software interface to set the desired temperature, humidity, and light intensity parameters, as well as the duration and cycling of the test.

4. Test Initiation: Start the test and allow the chamber to run through the programmed weathering cycles, simulating the desired environmental conditions.

5. Monitoring and Data Logging: Continuously monitor the test progress and environmental conditions using the data logging capabilities, ensuring the test runs smoothly and capturing all relevant data.

6. Post-Test Analysis: Upon completion of the test, analyze the collected data and assess the performance and durability of the automotive components, identifying any degradation or weaknesses.

Design Considerations

1. Chamber Size and Configuration： Select the appropriate chamber size and configuration based on the testing requirements and the size and shape of the automotive components to be tested, ensuring all parts can be adequately assessed.

2. Light Source Selection: Choose xenon arc lamps that accurately replicate the UV spectrum of natural sunlight, ensuring precise simulation of outdoor exposure conditions specific to automotive components.

3. Environmental Control: Design the chamber to provide precise control over temperature, humidity, and light intensity, enabling the creation of various weathering scenarios tailored to automotive applications.

4. Optical Systems: Incorporate advanced optical systems to ensure uniform light distribution across the test samples, providing consistent exposure and accurate test results for automotive components.

5. Safety Features: Integrate built-in safety mechanisms, such as UV protection and automatic shut-offs, to ensure the safe operation of the chamber under extreme conditions, protecting both the equipment and the users.

Product Structure and Accessories

1. Chamber Body: The main structure of the chamber is constructed from high-quality materials, ensuring durability and resistance to extreme testing conditions. It includes insulated walls to maintain consistent internal temperatures and humidity levels.

2. Xenon Arc Lamps: High-intensity xenon arc lamps are positioned within the chamber to provide full-spectrum UV light, replicating natural sunlight. These lamps are designed for long-lasting performance and accuracy.

3. Air Circulation System: An advanced air circulation system ensures uniform distribution of temperature and humidity throughout the chamber, providing consistent environmental conditions for the test samples.

4. Control Panel/Software Interface: An intuitive control panel or advanced software interface allows users to easily set, monitor, and adjust testing parameters, enhancing the efficiency and accuracy of the testing process.

5. Data Logging System: A comprehensive data logging system captures real-time environmental conditions and material performance data, providing detailed reports and insights into the behavior of automotive components under different conditions.

6. Safety Mechanisms: Built-in safety features, such as UV protection filters and automatic shut-offs, ensure the safe operation of the chamber, protecting both the equipment and the users from potential hazards.

In conclusion, the optimal xenon arc aging chamber for automotive component durability testing is an essential tool for ensuring the performance, reliability, and longevity of automotive parts under various environmental conditions. Its precise UV simulation, controlled environmental parameters, and comprehensive data logging capabilities make it invaluable for product development and quality control in the automotive industry. By adhering to key design considerations and incorporating advanced features, this chamber provides a competitive edge in the market, helping manufacturers meet stringent quality and reliability standards.

1729581421421422

1. Internal Dimension (W*D*H): 700*500*600mm

2. External Dimension (W*D*H): 1350*1300*1850mm

3. Internal chamber material: SUS 304 # Stainless Steel, anti-rust

4. External chamber material: Cold-rolled steel with spray

5. Chamber humidity range: 55%~90% RH

6. Chamber temperature : 35℃~90℃

7. Black panel temperature: 45℃~95℃, adjustable

8. Temperature uniformity: ≤±3℃

9. Filter: Window glass filter / daylight filter

10. Light source: Air cooled long arc xenon lamp

11. Xenon lamp power: 1.8KW * 3pcs = 5.4KW

12. Irradiance strength: 0.51W/m2@340nm

13. Control system: LCD programmable controller

14. Auto display irradiance, capacity: 100 groups program, 99 cycles.

15. Illumination time: 1~999 hours, adjustable

16. Water spray system: Water spray time 999 minutes settable

17. Interval spray time, 1~240 minutes settable

18. Sample holder: Stainless steel, 1pc

19. holder to lamp : 250~300mm

20. Heating: Nickel-chromium alloy electric heater

21. Humidification power: Stainless steel surface evaporative humidifier

22. Insulation materials: Supper fine glass fiber

23. Temperature sensor: PT100 high precision sensor

24. Air circulation system: Stainless steel centrifugal rotor vane to improve the uniformity of temperature and humidity

1729048275116179

1728722374990982