An understanding of component-properties relationship of high-temperature resistant addition-cure liquid silicone rubber: A review

The demand for addition-cure liquid silicone rubber (ALSR) with high temperature resistance in various fields is continuously surging, propelled by the rapid advancement of industries such as aerospace, electronics, and transportation. However, the intricate relationship between the structure and performance of ALSR remains unclear. Therefore, this present study aims to conduct a comprehensive review of recent research advancements in ALSR. More specifically, it pertains to the thermal degradation behavior of silicone rubber; providing a comprehensive review of four components in high-temperature resistant ALSR, including basic polymers, crosslinking agents, fillers, and catalysts; elucidating the relationship between each component and heat resistance properties; as well as addressing the future challenges about high-temperature resistant ALSR. This review provides valuable insights into the design of a high-temperature resistant ALSR.