Inconel 601 alloy is mainly composed of elements such as nickel, chromium and iron. It has excellent oxidation resistance and heat resistance, and is particularly suitable for high temperature environments.
The high temperature resistance of this alloy is manifested in the following aspects:
Oxidation resistance: Inconel 601 can maintain excellent oxidation resistance at temperatures up to 1200°C. The dense chromium oxide layer formed on the surface of the alloy effectively protects the material from oxidation corrosion.
Corrosion resistance: Inconel 601 can withstand the attack of corrosive media such as sulfides and chlorides, and is widely used in fields such as petrochemicals and coal gasification.
High temperature strength: The alloy has high tensile strength and yield strength at high temperatures. At 1000°C, its yield strength is about 350MPa.
Melting point analysis
The melting point range of Inconel 601 is usually between 1300°C and 1350°C, depending on the composition and heat treatment state of the alloy.
Compared with many common structural materials, Inconel 601 has a higher melting point, which enables it to maintain good performance under extremely high temperature conditions.
Thermal expansion: Inconel 601 has a relatively stable thermal expansion coefficient at high temperatures, making it suitable for use in high-temperature alternating load working environments.
Application areas
Inconel 601 is widely used in the following areas: Aerospace: used for high-temperature components such as engine parts and turbine blades.
Chemical industry: widely used in high-temperature chemical reactors, furnace tubes and other equipment.
Energy industry: used in gas turbines, high-temperature gas-cooled reactors and other equipment.
