In the field of metal materials, 24851 superalloy has attracted much attention as an important material. This article will dive into **2Chemical composition, hardness, density, heat treatment, mechanical properties, mechanical properties, application fields and welding processes of 4851 superalloy.
2.4851 superalloy is a nickel-based alloy, its chemical composition mainly includes nickel (Ni), chromium (Cr), iron (Fe) and titanium (Ti), the specific values are as follows: nickel accounts for about 72%, chromium accounts for 16%, iron accounts for 7%, and titanium accounts for 3%. In addition, the alloy contains small amounts of elements such as aluminum (Al), molybdenum (Mo) and zirconium (Zr). These precise chemical compositions guarantee 24851 superalloy has excellent high-temperature properties and corrosion resistance.
In terms of hardness, 24851 superalloy usually exhibits good hardness characteristics, and its hardness is generally between 250 and 300HB, which allows it to maintain high strength and rigidity in high-temperature and high-pressure environments.
Considering its application in high-temperature and high-pressure environments, 2The density of 4851 superalloy is also an important parameter. The density of the alloy is about 8The relatively light density of 14G cm makes it have a wide range of applications in aerospace and petrochemical fields.
In terms of heat treatment, 24851 superalloy has good hot working properties, and the structure and properties of the alloy can be controlled through solution treatment and aging treatment to meet the needs of different engineering applications.
In terms of mechanical and mechanical properties, 24851 superalloy has excellent tensile strength, yield strength and creep resistance under high temperature conditions, which makes it widely used in high temperature and high pressure equipment such as aero engines and gas turbines.
Due to its excellent high-temperature performance and corrosion resistance, 24851 superalloy is widely used in aerospace, petrochemical, nuclear engineering and other fields, including the manufacture of aero engine parts, gas turbine blades, chemical equipment, etc.
Finally, when it comes to the welding process, 2The welding process of 4851 superalloy requires strict control of welding parameters and process flow, usually using TIG welding, MIG welding, plasma arc welding and other methods, combined with appropriate welding fillers to ensure that the welded joints have good mechanical properties and corrosion properties.
In summary, 2With its excellent high-temperature properties, corrosion resistance and wide application prospects, 4851 superalloy has become an important material that has attracted much attention in the field of materials engineering today. Its chemical composition, hardness, density, heat treatment, mechanical properties, mechanical properties, application fields and welding processes make it play an important role in engineering applications in many high-temperature and high-pressure environments.
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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