CG MATERIAL
Spherical Inconel 600 Powder (UNS N06600) For Additive Manufacturing and Thermal Spary
Spherical Inconel 600 Powder (UNS N06600) For Additive Manufacturing and Thermal Spary
Specifications
| Chemical Compositions | Ni, Cr, Fe |
| Shape | Spherical Powder |
| Particle Size | 15-45μm, 15-53μm, 45-75μm, 45-105μm, 75-150μm, customized |
| Appearance | Grey powder |
DataSheet
| Ni (%) | C (%) | Cr (%) | Fe (%) | Si (%) | Mn (%) | S (%) | Cu (%) |
| ≥72.0 | <0.1 | 14-17 | 6-10 | <0.5 | <1.0 | <0.015 | <0.5 |
Properties:
- Melting Point: 1,370°C to 1,425°C
- Density: 8.47 g/cm³
- Corrosion Resistance: Excellent in both oxidizing and reducing environments
- Thermal Conductivity: Moderate
- Electrical Conductivity: Low
- Mechanical Strength: High tensile strength and creep resistance at high temperatures
Production Methods:
Spherical Inconel 600 powder is produced primarily through:
- Gas Atomization: Molten Inconel is atomized into fine droplets by a high-pressure gas stream, which cools and solidifies into spherical particles.
- Plasma Atomization: In this method, a plasma torch is used to melt the metal, which is then atomized into spherical powder by a gas stream.
- Other Methods: Advanced methods such as rotary atomization or centrifugal atomization can also be used to produce Inconel 600 powder with a spherical morphology.
Key Benefits of CG Material's Spherical Inconel 600 Powder:
- High Flowability and Packing Density: The spherical particle shape ensures uniform powder distribution and smooth flow, making it ideal for additive manufacturing and coating processes.
- Excellent High-Temperature Performance: Inconel 600 retains its mechanical properties at elevated temperatures, making it suitable for high-temperature applications.
- Corrosion and Oxidation Resistance: The alloy offers superior resistance to corrosion and oxidation, even in aggressive environments like those found in chemical processing and power generation.
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