Fluorosilicone rubber deeply penetrates high-end scenarios and empowers equipment upgrades in multiple fields
As the high-end manufacturing industry moves towards refinement and extremism, fluorosilicone rubber, with its unique comprehensive performance, has seen its application in key fields such as aerospace, new energy, and medical care deepen continuously. It has become a core material for enhancing the reliability and durability of equipment and promoting the technological iteration of related industries.

1. Aerospace field: Breaking through the limitations of extreme working conditions
In response to the strict requirements of aero-engine sealing and spacecraft thermal control systems, the new fluorosilicone rubber has achieved a synergistic improvement in resistance to high and low temperature shock and fuel corrosion. This material maintains stable elasticity within a wide temperature range of -60 ℃ to 250℃. After 500 cycles of cold and hot, the permanent compression deformation rate is less than 8%, and the tensile strength retention rate reaches 92% after being immersed in aviation hydraulic oil for 1000 hours. Its lightweight feature reduces the weight of components by more than 15%, and it has been successfully applied to the sealing components of spacecraft, helping to enhance the endurance and service life of equipment.

2. New energy storage: Building a solid safety protection barrier
In energy storage devices such as lithium-ion batteries and flow batteries, fluorosilicone rubber, as a key sealing and insulating material, has solved safety hazards such as electrolyte leakage and high-temperature fires. Through molecular chain modification technology, the material's resistance to electrolyte swelling has been reduced to below 5%, the breakdown voltage has been increased to 28kV/mm, and it also possesses excellent flame retardant performance. In the application of large-scale energy storage power stations, this material effectively blocks the leakage path of electrolyte, reducing the equipment operation failure rate by 23% and facilitating energy storage


3. It can provide guarantees for the safe development of the industry.
Medical precision components: Achieving breakthroughs in biocompatibility
For high-end medical fields such as minimally invasive medical devices and implantable sensors, the R&D team has prepared high-purity fluorosilicone rubber materials through the optimization of purification processes and the improvement of additives. Its biocompatibility meets the ISO 10993 biosafety standard, the cytotoxicity grade is grade 1, and there is no obvious inflammatory response in the in vivo implantation scenario. This material combines softness and molding accuracy, and can be processed into ultra-thin seals with a thickness of only 0.1mm, making it suitable for the precise structural design of micro medical devices.

4. Underwater equipment: Corrosion resistance performance upgraded again
In response to the anti-corrosion requirements of deep-sea exploration and Marine engineering equipment, fluorosilicone rubber has significantly enhanced its resistance to seawater corrosion and biological adhesion by introducing fluorocarbon side chains and combining them with nano-ceramic fillers for composite modification. After being immersed in a 3,000-meter deep-sea simulation environment for six months, there was no obvious erosion on the material surface, and the tensile strength loss was less than 3%. At the same time, it effectively inhibited the attachment of Marine organisms. This material has been applied to the housings of underwater sensors and the sealing of submarine cables, thereby extending the underwater service life of equipment.