High Precision Ozone Aging Test Chamber
Features
● Comprehensive Ozone Aging Testing
Specifically designed to test the ozone resistance of rubber products, such as vulcanized rubber, thermoplastic rubber, and cable insulation sheaths, under static or dynamic tensile deformation. Accurately evaluates surface cracking and material degradation over time, ensuring precise aging resistance analysis.
● Versatile Environmental Simulation
Capable of simulating high-temperature, low-temperature, and constant humidity environments, with precise control of temperature and ozone concentration. Ideal for assessing material performance in extreme environmental conditions.
● High-Precision Control
Temperature Range: 20% to 98% relative humidity (RH) with stability within ±0.5℃ and deviation ≤±2℃
Ozone Concentration: Fully adjustable between 0 and 1000 pphm, enabling customized testing for various industry needs.
Uniformity: Advanced air circulation ensures consistent test conditions throughout the chamber.
● Cutting-Edge Ozone Generation Technology
Utilizes a state-of-the-art ozone generator or UV absorption method to maintain a stable and controllable ozone concentration. This ensures accurate and repeatable test results, even under extended testing durations.
● Wide Range of Applications
Trusted by industries such as electronics, automotive, aerospace, and academia for testing the durability and longevity of components under simulated environmental stress. Ideal for quality control, R&D, and academic research purposes.
● Multiple Models and Sizes
Available in diverse configurations (100(A-B), 150(A-B), 225(A-B), 306(A-B), and more), offering customizable workspace sizes and external dimensions to meet varying industrial and laboratory requirements.
● Compliance with International Standards
Fully adheres to global testing standards, including GB10592-89, GB2423.1, GB2423.2, GJB150.3, and MIL-STD, ensuring compatibility with worldwide testing protocols.
● Durable and User-Friendly Design
Built with robust materials for long-lasting performance in intensive industrial and laboratory settings.
Ergonomic design, intuitive controls, and clear interface make it easy to operate, reducing setup time and training requirements.
● Energy-Efficient and Sustainable
Designed for low energy consumption while maintaining precise test conditions, making it an eco-friendly solution for high-frequency use.
● Innovative Testing Capabilities
Supports both static and dynamic tensile deformation testing, providing flexibility to simulate real-world material stresses for more reliable data.
Product specification
| Model specifications | 100(A-B) | 150(A-8) | 225(A-B) | 306(A-B) | 408(A-B) | 800(A-B) | 1000(A-B) | |
| size(cm) | studio | 40*50*50 | 60*50*50 | 75*50*60 | 85*60*60 | 85*60*80 | 100*100*80 | 100*100*100 |
| Outer box | 100*100*165 | 150*70*102 | 165*70*112 | 175*80*102 | 175*80*132 | 190*120*132 | 190*120*152 | |
| temperature range | 20%~98%RH | |||||||
| How ozone is produced | Ozone generator or UV absorption method | |||||||
| temperature stability | +0.5℃ | |||||||
| temperature uniformity | ±2℃ | |||||||
| temperature deviation | ≥±2℃ | |||||||
| Ozone concentration | 0~1000pphm adjustable | |||||||
| Ozone concentration fluctuation | 10% | |||||||
Product Structure
