Overview.
x5nicrti26-15(1.4980) alloy is a superalloy with excellent properties, which is widely used in aerospace, energy, chemical industry and other fields. This article will provide an overview of x5nicrti26-15 (14980) alloy in detail.
Composition & Tissue.
x5nicrti26-15(1.4980) alloy is a nickel-based superalloy, the main components are nickel, chromium, titanium, aluminum and other elements. The alloy has a single-phase austenite structure, stable structure, good hot working properties and high temperature mechanical properties.
Performance characteristics: 1.High temperature intensity: X5NICRTI26-15 (1.)4980) alloy can still maintain high strength at high temperature, has excellent creep resistance, and is suitable for long-term work in high temperature environment.
2.Good corrosion resistance: The alloy can still maintain good corrosion resistance in high temperature environment, and can resist the action of corrosive media such as oxidation and sulfurization.
3.Good thermal processability: X5NICRTI26-15 (1.)4980) alloy has good hot working performance, easy to casting, forging, welding and other process operations.
Fields of application. 1.Aerospace: x5nicrti26-15 (1.)4980) alloy is widely used in the aerospace field, such as the manufacture of key components such as engine blades, turbine discs, combustion chambers, etc.
2.Energy: The alloy can also be used in the energy field, such as the manufacture of key components of high-temperature equipment such as gas turbines and nuclear reactors.
3.Chemical industry: x5nicrti26-15 (1.)4980) alloy is also widely used in the chemical industry, such as the manufacture of catalyst support, high-temperature reactor and other equipment.
Production process. x5nicrti26-15(1.4980) alloy production process mainly includes smelting, casting, forging, welding and other links. In the melting process, the composition and impurity content of the alloying elements should be strictly controlled to ensure the purity and microstructure stability of the alloy. The cooling rate and temperature gradient should be controlled during the casting process to obtain the ideal microstructure and mechanical properties. During the forging process, the appropriate amount of deformation and deformation speed should be selected to avoid cracks and deformation. During the welding process, it is necessary to select appropriate welding materials and process parameters to ensure the welding quality and joint strength.
x5nicrti26-15(1.As a high-performance superalloy, 4980) alloy has a wide range of application prospects in aerospace, energy, chemical industry and other fields. With the continuous progress of science and technology and the continuous development of industry, the application prospect of this alloy will be broader.