In the harsh environment of space, satellites face extreme temperature fluctuations and intense radiation. Phenyl silicone rubber, with its unique chemical structure and excellent high-temperature and radiation-resistant properties, has become the material of choice in satellite thermal control systems.

Challenges of the Space Environment
Satellites operating in orbit experience dramatic temperature differences and are subjected to high-energy radiation and micro-meteoroid impacts. Phenyl silicone rubber maintains flexibility and sealing performance even under extreme conditions, while its superior oxidation and UV resistance help shield satellite electronic systems from adverse space conditions.

Technological Innovations and Future Outlook
As space technology continues to evolve and satellite applications expand, the use of phenyl silicone rubber in thermal control systems, insulation layers, and protective structures will become more widespread. With further improvements in material performance, its role in high-end satellites and deep space exploration equipment is expected to grow, contributing significantly to the advancement of the aerospace industry.