Fluorosilicone oil is relatively stable in a steam environment, mainly due to its unique chemical structure and properties.


First, the main chain of fluorosilicone oil is composed of siloxane segments, while the side chain introduces fluorine-containing groups. This structure gives fluorosilicone oil excellent chemical resistance, including solvent resistance, corrosion resistance, and high and low temperature resistance. In a steam environment, fluorosilicone oil can maintain its chemical stability and is not easy to react chemically with the components in the steam, thus ensuring the durability of its performance.

Secondly, fluorosilicone oil has low surface tension and good lubricity. This enables fluorosilicone oil to effectively reduce friction and wear between components in a steam environment and improve the operating efficiency of the equipment. At the same time, the lubricity of fluorosilicone oil can also help the equipment maintain a stable operating state in a steam environment and reduce failures caused by friction and wear.

In addition, fluorosilicone oil also has a wide operating temperature range and can maintain its physical and chemical properties at extreme temperatures. In a steam environment, fluorosilicone oil can withstand high temperature and high pressure steam and will not deteriorate or fail due to temperature changes. This makes fluorosilicone oil one of the ideal lubricants in steam power circulation systems.

In summary, fluorosilicone oil has relatively good stability in steam environment, excellent chemical resistance, lubricity and a wide operating temperature range. These characteristics make fluorosilicone oil have broad application prospects and significant advantages in steam power circulation systems.