New Metal Powders Support Additive Manufacturing at Scale
An aluminum-magnesium-scandium powder for additive manufacturing that exhibits the specific strength of titanium and the positive properties of aluminum.
As laser powder bed additive-layer manufacturing of metal parts continues to make the leap from rapid prototyping to series production, metal powder manufacturers are responding with new materials that rival the performance of the highest-grade foundry products. Scalmalloy, a new aluminum-magnesium-scandium alloy from Airbus APWorks GmbH, is one such offering, according to the company.

Scalmalloy is an aluminum-magnesium-scandium powder from Airbus APWorks. Image courtesy Toolcraft.

Toolcraft produced this automotive pump housing via metal laser melting. Image courtesy Toolcraft.
The corrosion-resistant material reportedly has the specific strength of titanium at a simultaneously high ductility and is more than twice as strong as the aluminum-silicon powder currently in use. Scalmalloy’s ultimate tensile strength is 490 MPa, yield strength is 450 MPa and elongation at break is 8 percent.
“Airbus realized that the mechanical properties of AlSi10, the standard additive manufacturing aluminum alloy, are not sufficient to be used in aerospace applications,” said Angela Grünewald, who’s in charge of business development for Airbus APWorks, which also prints parts. “The need for a high-strength AM aluminum alloy was identified. During the process, a lot of testing of slight chemical modifications, as well as testing of different powder production processes, was done.”
In addition to aerospace parts, such as interior ones, Grünewald noted Scalmalloy is suitable when parts require a combination of high-strength and lightweight properties, including ones for the automotive and robotics industries.
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