15CrMoV5-9 is a kind of special heat-resistant alloy steel material developed for the power industry. It is mainly used in the production of turbine blades and other high temperature components supporting the combustion chamber in thermal power plants.
15CrMoV5-9 alloy steel is widely used in power plants and other industries. It has very good creep strength, which enables the components to sustain their integrity during continuous operation at high temperatures. This alloy steel has very good strength, fracture toughness and corrosion resistance. Moreover, it has very good thermal physical properties and oxidation resistance.
15CrMoV5-9 alloy steel can be used in the construction of turbine blades and turbine disks, or in the manufacturing of combustor liners, combustion walls and other combustion chamber components. It is also the material of choice for the making of auxiliary components that are directly affected by hot steam in the power plants. This alloy steel is also used for the construction of steam turbine blades, seal rings, support disks and cylinder shells in the power industry.
15CrMoV5-9 alloy steel has superior strength and creep resistance, as well as excellent vibration resistance and wear resistance. The material has a good combination of mechanical properties, such as toughness, strength, formability and weldability. This alloy steel can be used for the joining of different parts in the power plants. The high creep strength of this material enables it to sustain continuous operation at high temperatures in the power plants.
15CrMoV5-9 alloy steel has high stability under long time operation and it is not easy to collapse. Its oxidation resistance makes it applicable to a wide range of applications in power plants. The material has excellent heat resistance and different surface treatments can also be used to improve its corrosion resistance. In addition, it has superior plastic deformation capability, as well as low thermal conductivity.
15CrMoV5-9 alloy steel is widely applied in the power industry, as well as in other industries, where it is required to produce components suitable for the highest temperature and stress conditions. This material is very often used for the construction of turbine components due to its superior creep strength. Moreover, it is used for the production of various components in the power plants and other industries. Other applications include the manufacture of blade stiffeners and combustor-wall components, as well as various other auxiliary components for the power plants and other industries.