Fluorosilicone oil builds a strong protective barrier against extreme environments, and deep-sea and polar engineering welcomes material innovation


1.Deep-sea oil and gas anti-corrosion coatings extend the service life of equipment
In the field of extreme environmental engineering, fluorosilicone oil has become a key material support due to its outstanding performance. For the complex corrosive environment of deep-sea oil and gas fields, fluoropolymer coatings demonstrate excellent protective capabilities, capable of resisting microbial and electrochemical corrosion under a pressure of 100MPa. On-site data shows that the corrosion rate of the mining equipment coated with fluorosilicone oil modification has been reduced by more than 70%, and the maintenance cycle has been extended from 3 months to 18 months, significantly lowering the cost of deep-sea operations.

2. The lubrication system of polar equipment has broken through the low-temperature limit
The lubrication problem of polar scientific research equipment has been successfully solved by fluorosilicone oil. The specially formulated fluorosilicone grease can maintain stable lubrication performance within an ultra-wide temperature range of -70 ℃ to 252℃. In the application of mechanical bearings in Antarctic research stations, even when exposed to extreme low temperatures of -58 ℃, it can still ensure that the starting torque of the equipment remains within 5% of the design value. This low-temperature resistance also makes it an ideal lubricating material for wind turbines and power transmission and transformation equipment in high-latitude regions.


3. Upgrade of high-frequency mechanical long-lasting lubrication technology
The high-frequency precision machinery field has witnessed a leap in performance. The lubricant formulated with fluorosilicone oil can remain stable in equipment such as laser printers at a high speed of 1.4 million revolutions per minute, with a signal attenuation rate of less than 0.5dB, which is far superior to traditional products. Its ultra-low coefficient of friction (0.01-0.03) reduces the mechanical wear rate by 60%, and in precision components such as watch movements and micro-motors, the service life is extended to more than three times the original.


4. Protective coatings drive the transformation of green industry
Fluorosilicone oil protection technology is driving the green transformation of traditional industries. In the chlor-alkali industry, the dehydration efficiency of glass wool demisters impregnated with fluorosilicone oil has been increased to 99%, the corrosion rate of equipment has decreased by 80%, and at the same time, the environmental pollution caused by the leakage of hydrogen chloride gas has been reduced. After applying fluorosilicone oil self-cleaning coating to solar energy installations in desert areas, the amount of dust adhering to the surface is reduced by 90%, and the power generation efficiency is increased by 15%. This model of "replacing frequent maintenance with material upgrades" provides a new idea for the low-carbon transformation of high energy-consuming industries.