Hello ! Welcome to Xenon Weathering Chambers Manufacturer
【 WhatsApp 】
+86(21)-64208466
+86-13816217984
Since ozone is a highly chemically unstable gas, measuring its concentration in air and water within a short timeframe has long been challenging. However, using a plastic ozone aging test chamber simplifies this process significantly.
More
This article provides a technical overview of ozone aging mechanisms, testing methodologies, and the importance of evaluating ozone-induced degradation in ozone-sensitive materials.
It is widely known that ozone aging test instruments are used to simulate atmospheric ozone conditions, investigate the effects of ozone on rubber, and rapidly evaluate the anti-ozone aging performance of rubber and the protective efficacy of anti-ozonant
More
The ozone aging test chamber is a commonly used material aging evaluation device that simulates ozone effects in natural environments to accelerate sample aging processes, thereby assessing the weathering resistance of materials in outdoor conditions. Thi
More
The UV aging test program encompasses various experiments, including light aging tests, thermal aging tests, ozone aging tests, humidity and heat aging tests, gas corrosion aging tests, and salt spray corrosion aging tests. These experiments are instrumen
More
Textiles are typically exposed to light during use, where light energy can damage dyes and cause "fading"—discoloration of colored textiles, usually resulting in lightening or darkening. How can sunlight exposure be simulated? The answer lies in using a
More
Polymer materials may deteriorate during synthesis, storage, processing, or end-use, manifesting as performance degradation such as yellowing, reduced molecular weight, surface cracking, loss of gloss, or severe declines in mechanical properties (e.g., im
More
Aging testing is a trial that simulates the performance changes of products during prolonged use or exposure to adverse environmental conditions. Such tests typically employ specialized equipment and environmental conditions to replicate harsh real-world
More
Unsaturated bonds in polymer materials absorb light energy, triggering chemical reactions that lead to adverse phenomena such as discoloration, cracking, wrinkling, and blistering. Temperature inhomogeneity caused by light exposure may also result in prod
More
In daily life and industrial production, numerous products are inevitably exposed to light, such as exterior wall coatings, plastics, textiles, and electronic devices. Ultraviolet (UV) radiation in sunlight, combined with high temperatures, rain, and dew,
More
在线客服