With the growing demand for high-performance elastomer materials in industries such as aerospace, nuclear power, and polar exploration, IOTA phenyl compounds, with their excellent low-temperature resistance, radiation resistance, and electrical insulation properties, are ideal sealing and cushioning solutions for extreme environments.



Phenyl compounds are specialty silicone rubbers synthesized by introducing phenyl substituents into polysiloxane chains. They exhibit superior thermal and oxidative stability and low-temperature flexibility compared to standard methyl silicone rubbers. In particular, they maintain elasticity below -90°C, making them one of the few silicone rubber materials on the market that can withstand long-term use at extremely low temperatures.

IOTA phenyl rubber compounds are widely used in aerospace sealing components, cold-resistant coatings for deep-sea equipment, and high-voltage seals for power equipment. They maintain structural and performance resistance in vacuum, intense radiation, corona, and high- and low-temperature environments, providing continuous and reliable sealing for equipment.

In nuclear energy and high-radiation applications, phenyl rubber compounds exhibit excellent radiation resistance, maintaining physical strength and chemical stability even under gamma-ray and electron beam irradiation. They are suitable for use as insulation and buffer components in nuclear power plant piping and control systems.

Furthermore, its excellent processing properties enable it to be formed into composite structures with glass fiber, PTFE, and metal components, further expanding its application in specialized high-end fields.

In the future, as material standards for extreme environment applications improve, IOTA phenyl compounds will play an even more critical role in global high-end manufacturing.