Chemical Industry
Reactors and Tanks: Alloys are often used to make chemical reactors and tanks, which are devices that hold a variety of chemicals and sometimes operate at high temperatures and pressures. The alloy's corrosion resistance and high-temperature resistance make it an ideal material choice.
Pipes and valves: Alloy pipes and valves are used to transport various corrosive media, including acids, alkalis, brine, and organic solvents. Alloys are able to withstand the corrosive effects of these chemicals on materials.
Heat Exchanger: In chemical processes, heat exchangers are used to control temperature. Alloy heat exchangers can effectively transfer heat under high temperature and high-pressure conditions and resist corrosion from the medium.
Chemical Valves: Valves require corrosion resistance to control the flow of fluids. Alloy valves are often used to handle corrosive media to ensure reliable fluid control.
Pipe and Distribution Systems: Alloy pipe and cable systems are used to transport chemicals and electrical power, as well as provide durability and safety in special environments.
Chemical separation equipment: including distillation columns, extractors, and separation columns, these equipment require materials to withstand contact with different substances, so alloy selection is critical to maintaining the long-term performance of the equipment.
Catalysts: Certain catalytic reactions require the use of alloy catalysts that can provide the required catalytic activity under high temperature and pressure conditions.
Pressure Vessels: Alloys are used to make chemical pressure vessels that withstand chemical reactions at high pressures, including polymer chemistry, atmosphere drying, and high-temperature processes