Ideal for applications that require excellent thermal conductivity for thermal management.
KEY PROPERTIES
• Excellent thermal conductivity
• Excellent corrosion resistance
• Good machinability
DATASHEETS
• 53/20 µm (For laser metal deposition)
• 53/20 µm (For high-speed laser metal deposition)
CuCr1Zr is a gas atomized copper alloy powder engineered for Additive Manufacturing (AM). This high-performance precipitation-hardened alloy delivers an excellent combination of electrical and thermal conductivity with enhanced mechanical strength.The material exhibits outstanding thermal stability and resistance to softening, ensuring consistent performance under prolonged high-temperature conditions. CuCr1Zr is ideally suited for applications that demand high conductivity, strength retention, and durability under thermal and mechanical loads. Its balanced set of properties makes it a preferred material across industries requiring efficient heat and electrical transfer with reliable structural integrity.
KEY PROPERTIES
• High electrical conductivity
• High thermal conductivity
• Good softening resistance at elevated temperatures
DATASHEETS
• 90/45µm (For laser metal deposition)
CuNi2SiCr is a gas-atomized, precipitation-hardened copper alloy powder designed for additive manufacturing (AM). It offers high mechanical strength and hardness while maintaining moderate electrical and thermal conductivity, along with good resistance to thermal gradients and thermal cycling. The alloy is suitable for applications that require efficient heat extraction under high mechanical loads, such as die and mold, high temperature tooling, and other thermal management systems, where rapid heat dissipation and high structural strength are critical.
KEY PROPERTIES
• High strength and hardness
• Moderate electrical conductivity
• Moderate thermal conductivity
• Good thermal stability
DATASHEETS
• 90/45µm (For laser metal deposition)
