Fluorosilicone oil technology has achieved multiple breakthroughs, and high-performance modified products empower high-end manufacturing

1.The end group modification technology has refreshed the upper limit of performance
Recently, the fluorosilicone oil field has witnessed multiple technological innovations, with breakthroughs in end-group modification processes becoming the core highlight. By innovating the selection of end-capping agents and the regulation of polymerization reactions, we have developed unique fluorosilicone oil products such as vinyl end-capping and hydroxyl end-capping, successfully achieving the synergistic integration of carbon-carbon double bonds, hydroxyl groups and carbon-fluorine bonds. When this type of product is applied to mold adhesives, its mechanical properties are significantly enhanced, while the surface energy is reduced. This can reduce or even eliminate the use of mold release agents, greatly optimizing the production process.


2. Solvent-free synthesis processes lead the upgrade of environmental protection
Green production has become a key focus of technological breakthroughs in the industry. The implementation of solvent-free polymerization processes has achieved a win-win situation for environmental protection and efficiency. This process achieves homogeneous reactions without organic solvents by optimizing the raw material ratio and reaction conditions. Combined with precise vacuum control, it promotes the efficient escape of by-products, significantly enhancing the purity and yield of the products. It is particularly suitable for the preparation of high-viscosity fluorosilicone oil. The reaction speed is significantly improved compared with the traditional process, and at the same time, it completely solves the problem of organic solvent residue, which meets the requirements of green chemical industry development.


3. The adaptability to extreme environments has been continuously strengthened
In response to the strict requirements for materials in high-end equipment, significant progress has been made in the research and development of fluorosilicone oil products resistant to extreme environments. The new product can maintain stable performance within a wide temperature range from -50 ℃ to 320℃, and its viscosity change rate is only one third of that of conventional products. It performs outstandingly in terms of radiation resistance and chemical corrosion resistance, capable of withstanding the erosion of strong acids, strong alkalis and strong oxidants, providing reliable support for the sealing and lubrication requirements in fields such as aerospace and nuclear industry.


4. Ai-assisted R&D shortens the iteration cycle
The industry is accelerating its innovation process with the help of digital tools, and AI large models have been applied on a small scale in the research and development of fluorosilicone oil. Through this model, the component design and synthesis scheme optimization can be completed rapidly, significantly shortening the R&D cycle. Data shows that, relying on an intelligent R&D system, the average transformation time of new fluorosilicone oil products from the laboratory to industrialization has been shortened by more than 30%, promoting the continuous emergence of functional products such as high-temperature resistant, high-transparency, and biocompatible ones, and helping the industry transform from following to leading.