Iron Nickel (Fe-Ni) Alloy Powder
Purity: 99.9%, Size: 325 mesh, Fe/Ni: 5:5
Iron-Nickel (Fe-Ni) Alloy Powder, with a high purity of 99.9% and a fine particle size of 325 mesh, is a versatile material used in powder metallurgy, magnetic materials, electronic components, and aerospace applications. Composed of an equal ratio of Iron (Fe) and Nickel (Ni) (5:5), this alloy powder is known for its excellent magnetic properties, corrosion resistance, and thermal stability, making it ideal for soft magnetic alloys, electrical shielding, and specialized industrial applications.
Its high permeability and low coercivity make it particularly useful in magnetic shielding, transformers, inductors, and electromagnetic interference (EMI) reduction. Additionally, Fe-Ni alloys are extensively utilized in advanced coatings, high-strength metal components, and additive manufacturing processes.
Key Features
| Feature | Description |
|---|---|
| High Purity | 99.9%, ensures low impurities for superior industrial and electronic performance |
| Optimized Fe/Ni Ratio | 5:5, provides balanced magnetic properties and mechanical strength |
| Fine Particle Size | 325 mesh, ideal for powder metallurgy, sintering, and additive manufacturing |
| Magnetic Properties | Excellent, suitable for transformers, inductors, and EMI shielding |
| Corrosion & Oxidation Resistance | Superior, ensures long-term durability in harsh environments |
| Thermal Stability | High, suitable for aerospace, automotive, and electronic applications |
| Powder Metallurgy & Additive Manufacturing | Enhances material performance and processing efficiency |
| Electrical & Magnetic Components | Ideal for soft magnetic alloys, shielding materials, and EMI reduction |
Additional Information
Iron-Nickel (Fe-Ni) Alloy Powder is a high-performance material engineered for magnetic applications, advanced manufacturing, and high-strength metal production. It ensures maximum efficiency, durability, and reliability for powder metallurgy, electronic shielding, and precision components.
