Monel 400 is a nickel-copper alloy that is resistant to high-temperature seawater and steam as well as salt and alkaline solutions.
Monel 400 is a high-strength, corrosion-resistant nickel-copper alloy. Monel 400 has good general corrosion resistance, good weldability, and medium-to-high strength. The alloy is often used in industrial applications under extreme conditions. It has excellent resistance to fast-flowing salt water or seawater. It is particularly resistant to degassed hydrochloric and hydrofluoric acids. The alloy is slightly magnetic at room temperature. Monel 400 is widely used in the chemical, petroleum, and marine industries and is primarily composed of approximately 63% nickel and 34% copper, with small amounts of iron, manganese, carbon, and silicon. This alloy has the following characteristics:
1. Excellent corrosion resistance: Monel 400 has strong corrosion resistance to a variety of corrosive media such as seawater, acids, alkalis, etc., so it is widely used in marine engineering, chemical processing and petroleum industry. It is corrosion resistant in a wide range of marine and chemical environments.
2. High strength: Monel 400 maintains good mechanical properties even in environments ranging from sub-zero temperatures to about 480C.
3. High and low temperature resistance: This alloy maintains strength at high temperatures and does not become brittle at low temperatures, so it is widely used in heat exchangers, boilers and other high temperature applications
4. Good resistance to sulfuric acid and hydrofluoric acid
5. Good machinability: Monel 400 can be manufactured by various conventional processing methods, including welding, forging, drawing, etc.
Feedwater and steam generator piping.
Brine heaters, seawater scrubbers in tanker inert gas systems.
Sulfuric acid and hydrofluoric acid alkylation units.
Acid wash rod heating coils.
Heat exchangers in various industries.
Transfer piping in refinery crude towers.
Uranium refining and isotope separation plants in nuclear fuel production.
Pumps and valves for manufacturing perchloroethylene, chlorinated plastics.
Monoethanolamine (MEA) reboiler tubes.
Cladding of refinery crude tower tops.
Propeller and pump shafts.
Monel 400 is a nickel-copper alloy that is resistant to high-temperature seawater and steam as well as salt and alkaline solutions.
Monel 400 is a high-strength, corrosion-resistant nickel-copper alloy. Monel 400 has good general corrosion resistance, good weldability, and medium-to-high strength. The alloy is often used in industrial applications under extreme conditions. It has excellent resistance to fast-flowing salt water or seawater. It is particularly resistant to degassed hydrochloric and hydrofluoric acids. The alloy is slightly magnetic at room temperature. Monel 400 is widely used in the chemical, petroleum, and marine industries and is primarily composed of approximately 63% nickel and 34% copper, with small amounts of iron, manganese, carbon, and silicon. This alloy has the following characteristics:
1. Excellent corrosion resistance: Monel 400 has strong corrosion resistance to a variety of corrosive media such as seawater, acids, alkalis, etc., so it is widely used in marine engineering, chemical processing and petroleum industry. It is corrosion resistant in a wide range of marine and chemical environments.
2. High strength: Monel 400 maintains good mechanical properties even in environments ranging from sub-zero temperatures to about 480C.
3. High and low temperature resistance: This alloy maintains strength at high temperatures and does not become brittle at low temperatures, so it is widely used in heat exchangers, boilers and other high temperature applications
4. Good resistance to sulfuric acid and hydrofluoric acid
5. Good machinability: Monel 400 can be manufactured by various conventional processing methods, including welding, forging, drawing, etc.
Feedwater and steam generator piping.
Brine heaters, seawater scrubbers in tanker inert gas systems.
Sulfuric acid and hydrofluoric acid alkylation units.
Acid wash rod heating coils.
Heat exchangers in various industries.
Transfer piping in refinery crude towers.
Uranium refining and isotope separation plants in nuclear fuel production.
Pumps and valves for manufacturing perchloroethylene, chlorinated plastics.
Monoethanolamine (MEA) reboiler tubes.
Cladding of refinery crude tower tops.
Propeller and pump shafts.
