Additive Manufacturing of CuCrZr Copper Alloy Powder
The core challenge of high reflectivity and formability in CuCrZr additive manufacturing is the basis of existing material technology. Through strict control of raw material powder quality, precise adjustment of alloy composition, and optimization of forming processes, it has successfully upgraded the CuCrZr copper alloy powder. This material has achieved systematic breakthroughs from composition design, particle size distribution to comprehensive performance, and has formed mature batch production capacity.
The CuCrZr copper alloy powder is designed to meet the high-end manufacturing demands in fields such as aerospace, information electronics, and new energy. It possesses excellent properties such as high electrical and thermal conductivity, high strength, high temperature resistance, wear resistance, and anti-fatigue performance. Relying on our full-process material solution, it provides users with outstanding support for high-quality copper alloy materials for additive manufacturing.
CuCrZr copper alloy powder
It is a precipitation-hardening type copper alloy material with high electrical and thermal conductivity, high strength and high temperature resistance, excellent wear resistance and fatigue resistance performance.
التطبيق النموذجي
It is suitable for manufacturing the combustion chambers of rocket engines, elastic insertion holes of connector contacts for new energy vehicles, thin-film electrodes, and mold base materials, etc.
CuCrZr combustion chamber
Chemical composition (wt.%)
صhysical properties
Printing of CuCrZr by SEBM-Y150
Mechanical properties after heat treatment
