Copper
3D Printing Copper Cu, CuCP, CuCrZr & CuNi30
Copper in Additive Manufacturing: Newbie on the Rise
Copper 3D printing is one of the newest areas of additive manufacturing - and one of the most growing. Until a few years ago, it was problematic to impossible to print three-dimensional objects with copper because the metal's reflectivity and high thermal conductivity made it difficult to use conventional 3D printers.
As a pioneer in the field of copper 3D printing, EOS has mastered these challenges, so today advanced applications can be printed using copper, from rocket propulsion systems to copper coils. The material properties of copper make it ideal for any application requiring good conductivity - both in thermal and electronic terms. In the past, copper parts had to be forged, cast or machined. 3D printing with copper now makes it possible to produce much more complex geometries that, for example, increase the efficiency of electric motors or enable new types of heat sinks in power electronics.
EOS Copper Materials
The copper family includes Cu, CuCP and CuCrZr as well as CuNi30 alloys developed and qualified for use with EOS metal systems. Cu, CuCP and CuCrZr impress with good electrical and thermal conductivity, making them suitable for a wide range of applications.
All our copper materials are well tried and tested as consistent and reproducible part quality is essential for applications in many industries.
Our EOS Copper CuCP and EOS CopperAlly CuCrZr are TRL 5 materials. They are delivered with a lot specific MTC (according to EN 10204, type 3.1). EOS Copper Cu and CuNi30 are TRL 3 materiasl which are supplied with a material test report MTR (according to EN 10204, type 2.2) showing the results of the QA testing regarding the chemical properties and particle size distribution.
Typical Part Properties
- Chemical Composition Standard approx. 99.6% pure
- Tensile Strength 190 MPa
- Yield Strength 140 MPa
- Elongation at Break 20 %
EOS Copper Cu
High purity copper to reach good electrical and thermal conductivity. Suitable for a wide variety of applications.
Highlights
- High purity copper
- Good electrical and heat conductivity
- Process developed to achieve best possible conductivity using the EOS M 290
Typical Applications
- Heat exchangers
- Electronics
- Variety of industry applications requiring good conductivity
Compatible Printers
Typical Part Properties
- Chemical Composition Standard >99.95% pure
- Tensile Strength 235 MPa
- Yield Strength 165 MPa
- Elongation at Break 45 %
EOS Copper CuCP
Commercially pure copper designed to reach excellent conductivity properties. Suitable for a wide variety of applications.
Highlights
- Commercially pure copper (> 99.95 % purity)
- Excellent electrical and heat conductivity
Typical Applications
- Electrical motors
- Inductors
- Variety of industry applications requiring excellent conductivity properties
Compatible Printers
Typical Part Properties
- Chemical Composition Standard ASTM B369-09 UNS 96400
- Tensile Strength 500 MPa
- Yield Strength 420 MPa
- Elongation at Break 30 %
EOS CopperAlloy CuNi30
EOS CopperAlloy CuNi30 is a copper alloy with excellent corrosion resistance in salt water. It has good strength and ductility. CuNi30 has good ductility also in very low temperatures. Material is in accordance with UNS 96400.
Highlights
- Good corrosion resistance in salt water
- Performance in very low temperatures
- Stable processability
Typical Applications
- Pumps and impellers
- Marine applications
Compatible Printers
Typical Part Properties
- Chemical Composition Standard C18150 & CW106C
- Tensile Strength 300 MPa
- Yield Strength 200 MPa
- Elongation at Break 30 %
EOS CopperAlloy CuCrZr
EOS CopperAlloy CuCrZr has a favorable combination of electrical and thermal conductivity accompanied with good mechanical properties. This alloy reaches its good properties during heat treatment.
Highlights
- High productivity 12 mm3/s with 80 µm layer thickness
- Moderate to high conductivity in heat treated condition together with good mechanical properties
- Chemical composition corresponds to C18150 and CW106C
Typical Applications
- Rocket engine parts
- Heat exchangers
- Induction coils