Wear-resistant, corrosion-resistant and ideal for high temperatures applications
Co6
Co6 is a gas atomized cobalt-based alloy powder engineered for additive manufacturing (AM). This alloy consists of cobalt, chromium, and tungsten, which offers high hardness properties and exhibits remarkable resistance to wear, corrosion, and galling. It is also able to retains these properties at elevated temperatures up to 500°C to 600°C . As a standard coating material for general-purpose wear and corrosion resistance, it is well suited across diverse mechanical and chemical conditions.
KEY PROPERTIES
• High hardeness
• Good wear resistance
• Excellent corrosion resistance
• Retains hardness at higher temperatures
TECHNOLOGY
• Laser metal deposition
• High-speed laser metal deposition
MA-Co21-3-GA is a gas atomized cobalt-based powder, engineered for additive manufacturing (AM). The material primarily consists of cobalt, chromium, and molybdenum, which offers high hardness properties and exhibits remarkable resistance to wear, corrosion, and galling, with work hardening properties. It is also able to retain these properties at elevated temperatures up to 600°C.
This material is a widely utilized cobalt-based alloy for coating applications. Its ternary molybdenum element content provides a high resistance to severe reducing or corrosive environments compared to other cobalt-based alloys.
KEY PROPERTIES
• High hardness
• Good wear resistance
• Excellent corrosion resistance
• Retains hardness at elevated temperatures
Ready to Explore the Boundless Possibilities of Additive Manufacturing?
Unlock the full potential of additive manufacturing with the guidance and expertise of Makino's dedicated materials specialist. Whether you have questions about material compatibility, optimizing production processes, or selecting the right materials for your specific application, our expert is here to help. From traditional metals to advanced alloys and composites, we'll assist you in choosing the perfect materials that ensure quality and performance.
