+86-13532971605
In the natural environment, ozone is a gas with strong oxidizing properties. Although its content is relatively low, its long-term effects can significantly age polymer materials. The ozone aging test chamber can precisely simulate conditions such as different ozone concentrations, temperatures, and humidity levels, allowing materials to quickly undergo aging processes in a lab environment that are akin to several years or even decades in the natural environment. Through this simulation, the durability and performance changes of materials in natural conditions can be quickly understood.
For manufacturers and research institutions focusing on rubber, plastics, and other materials, the ozone aging test chamber is an essential tool for developing new materials and improving the performance of existing ones. By conducting aging tests on materials with different formulations in the test chamber, the ozone aging resistance of the materials can be evaluated, and the key factors affecting material aging can be identified.
In the production process, quality control is a critical step to ensure product quality stability. The ozone aging test chamber can be used to perform quality inspections on raw materials and finished products. For raw material suppliers, the test chamber can ensure that the provided materials meet certain ozone aging resistance standards. For finished product manufacturers, performing ozone aging tests before products leave the factory can timely identify potential quality issues, preventing defective products from entering the market. For example, if products like car tires and rubber seals perform poorly in ozone aging tests, they may prematurely age and crack due to ozone exposure in actual use, affecting their lifespan and safety.
Therefore, the ozone aging test chamber provides a powerful tool for studying the effects of ozone on rubber by simulating and intensifying the ozone conditions in the atmosphere. With this test chamber, the ozone aging resistance of rubber materials and the effectiveness of anti-ozone agents can be quickly identified and evaluated. Based on this data, targeted anti-aging strategies can be developed to effectively extend the lifespan of rubber products.
The ozone aging test chamber is equipped with a sample holder device driven by a variable-speed motor, meeting the needs of static tensile testing, and the motion trajectory of the specimens follows the cycloidal path principle, ensuring measurement accuracy. Additionally, it is equipped with an automatic digital display control instrument for ozone concentration, which can display and control ozone concentration in real-time. The dual-beam "QUA" non-dispersive ultraviolet ozone detector further ensures the precise measurement of ozone concentration. The digital automatic online measurement function also makes the measurement process more convenient and efficient. Notably, the test chamber is also outfitted with a metrological verification interface, facilitating regular calibration and verification.
Using the cycloidal path principle ensures measurement accuracy, coupled with PID self-tuning functionality for more straightforward and reliable operation. This technology not only improves measurement precision but also provides reliable data support for users to develop scientific protective measures, thereby further extending the lifespan of rubber products and providing a better user experience.
English
