Wear on power plant fan blades is a complex problem for the following reasons: Particulate matter is one of the main contributors to blade wear. These particles may come from coal dust, dust, soot, etc., which rub against the surface of the blades of the wind turbine running at high speeds, causing wear and tear on the blade surface. Secondly, the working environment of wind turbines is often harsh, often affected by extreme weather, temperature, humidity and other factors, which will also accelerate the wear and tear of blades. In addition, factors such as wind speed, changes in wind direction, and turbulence can also have an impact on blade wear. Under such harsh working conditions, the fan is severely worn, which requires the use of wear-resistant materials to make the fan blades.
According to the working conditions of the wind turbine, the KNM60 composite wear-resistant steel plate can be used to make the fan blades. In order to cope with the wear resistance problem of the wind turbine blades of the power plant, KNM60 composite wear-resistant steel plate is used to make the blades. Due to its wear resistance and strength, this steel plate is widely used in a variety of harsh industrial environments. KNM60 composite wear-resistant steel plate is a specially treated material that combines the characteristics of high-strength steel and wear-resistant alloy. During the manufacturing process, this steel plate is precisely heat treated and alloyed to give it excellent wear and corrosion resistance. This enables the KNM60 composite wear-resistant steel plate to withstand the strong friction and air flow of the power plant fan blades when operating at high speeds. The use of KNM60 composite wear-resistant steel plate to make power plant fan blades can not only greatly improve the service life of the blades, reduce maintenance costs, but also improve the operation efficiency of the wind turbine. In addition, KNM60 composite wear-resistant steel plate also has good fatigue resistance and high temperature stability. Even in high temperature and high load environments, this wear-resistant steel plate is able to maintain its stable performance, effectively reducing the risk of failure of wind turbine blades due to fatigue or high temperatures.