Iron Tungsten Alloy Powder | |
Product No | NRE-9021 |
CAS No. | 7439-89-6 / 7440-33-7 |
Formula | Fe-W |
Molecular Weight | 239.685 g/mol |
APS | <40 um (Can be Customized) |
Purity | 99.9% |
Density | NA |
Color | Gray |
Melting Point | NA |
Boiling Point | NA |
Fe-W Alloy Powder
Applications
Aerospace and Aviation:
Counterweights and Ballast: Due to its high density, Fe-W alloys are used in counterweights in aircraft, rockets, and satellites. These alloys help balance aerospace structures and components, ensuring the proper distribution of weight for stability and efficient operation.
Turbine Blades: The thermal stability and high melting point of Fe-W alloys make them suitable for use in high-performance turbine blades in jet engines and gas turbines where the material must withstand extreme temperatures.
Automotive Industry:
High-Performance Components: In the automotive sector, Fe-W alloys are used in engine parts, brake components, and suspension systems. The alloys’ wear resistance and high-temperature stability ensure that automotive components maintain their performance over time, even under extreme conditions.
Heavy Machinery: The high density and durability of Fe-W alloys make them ideal for heavy machinery used in mining, construction, and excavation, where wear resistance and strength are essential.
Cutting Tools and Machinery:
Drills, Saws, and Cutting Edges: The hardness and wear resistance of Fe-W alloys make them highly suitable for cutting tools, drills, saws, and other machinery parts that undergo continuous friction and stress.
Milling Tools and Dies: Fe-W alloys are also used for manufacturing milling tools and dies used in metalworking and machining, where the material’s hardness and resistance to deformation are critical.
Nuclear Industry:
Radiation Shielding: Fe-W alloys are employed in the nuclear industry for radiation shielding due to their high density, which helps attenuate radiation effectively. The alloys can be used in radiation shielding walls and reactor components where they offer protection against harmful radiation and maintain their structural integrity in nuclear reactors.
Energy Generation:
Power Generation Systems: Fe-W alloys are used in high-efficiency power generation systems, including turbines and heat exchangers, due to their thermal stability and wear resistance. Their ability to withstand extreme heat and mechanical stress makes them suitable for use in steam turbines, gas turbines, and power plant components.