The continuous innovation in the preparation process of silicone rubber provides a broader space for its application in various fields. Traditionally, silicone rubber is mainly made from silicon hydrogen compounds such as silane and vinyl silane through mixing, extrusion, vulcanization, and hardening steps. However, with the development of technology and the application of new preparation methods and additives, the performance of silicone rubber has been further optimized.

For example, through electrostatic self-assembly technology, nano alumina can be loaded onto carbon nanotube whiskers and co filled with micro alumina into silicone rubber to construct composite materials with high thermal conductivity and good insulation. This innovative method not only solves the contradiction between the thermal conductivity and insulation of traditional composite materials, but also improves the overall performance of the material.

In addition, significant progress has been made in the preparation technology of superhydrophobic surfaces for silicone rubber. By combining multiple laser exposures and chemical modifications, robust superhydrophobic surfaces can be prepared on silicone rubber substrates. These surfaces exhibit excellent wear resistance and waterproof properties, providing new materials for applications that require high waterproofing and wear resistance.

Looking ahead to the future, the application prospects of silicone rubber will be even broader. With the continuous improvement of material performance requirements, the innovative preparation process of silicone rubber will continue to promote its application and development in more fields.

High Tear Strength Fumed Type Silicone Rubber