N1001 superalloy is a high-performance, high-temperature special alloy material, with excellent heat resistance, corrosion resistance and high strength. Its chemical composition mainly includes nickel (Ni), cobalt (CO), chromium (Cr), molybdenum (Mo), iron (Fe) and other elements. The specific values are as follows: nickel about 60%, cobalt about 15%, chromium about 13%, molybdenum about 6%, iron about 5%. In addition, superalloys also contain small amounts of elements such as aluminum, titanium, manganese, and silicon, as well as trace amounts of elements such as carbon and nitrogen.
The hardness of N1001 superalloy is usually between 200-250HB and the density is about 84G CM, these characteristics make it able to maintain stable performance in harsh environments such as high temperature and high pressure.
In terms of heat treatment, N1001 superalloy usually adopts solution and aging process to achieve the ideal crystal structure and performance state through appropriate heating and cooling processes.
In terms of mechanical properties, N1001 superalloy has high tensile strength and yield strength, excellent oxidation resistance, excellent high-temperature durability and fatigue life. At the same time, it also has good creep resistance and stress corrosion crack propagation resistance, which is suitable for long-term use in high temperature and high pressure environments.
In terms of mechanical properties, N1001 superalloy exhibits excellent cutting performance, thermal deformation characteristics and welding properties, which can meet the requirements of complex parts processing and assembly.
N1001 superalloy is widely used in aerospace, aero engine, shipbuilding, chemical industry, nuclear industry and other fields, especially in the manufacture of parts and equipment working under high temperature and high pressure, such as turbine blades, gas turbines, combustion chambers, gas turbine joints, aerospace propulsion systems and other high-temperature parts and components.
In terms of welding process, N1001 superalloy can be welded by TIG (Tungsten Inert Gas Welding), MIG (Metal Inert Gas Welding), electron beam welding and other technologies, and it is necessary to pay attention to the selection of appropriate welding materials and process parameters to ensure the quality and performance of welded joints.
To sum up, N1001 superalloy has become an ideal material in the high-temperature and high-pressure environment by virtue of its excellent chemical composition, hardness, density, heat treatment process, mechanical properties, mechanical properties, application fields and welding processes, and provides a reliable guarantee for high-end applications in various industries.
Form: plates, rods, tubes, steel strips, wires, forgings, forging pipes, forging plates, forging rods, round bars, plates, thin plates, seamless pipes, welded pipes, round bars, wires, steel plates, round rounds, strips
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