Engineers Have Found a Way to 3D Print Super Strong Aluminum

Monday, Sep 25, 2017


  For the longest time, metal-based manufacturing has been difficult and costly. High-strength aluminum alloys are difficult materials to work with for additive manufacturing, also known as 3D printing. Now, researchers from HRL Laboratories have developed a new method that allowed them to 3D print high-strength aluminum and weld previously unweldable material.

  “We’re using a 70-year-old nucleation theory to solve a 100-year-old problem with a 21st century machine,” Hunter Martin, a PhD student at the University of California, Santa Barbara and engineer at HRL’s Sensors and Materials Laboratory, said in a press release.

  The HRL researchers came up with a method they’ve called nanofunctionalization, where nano-functionalized powders are fed to a 3D printer. This is applied in thin layers which are heated by a laser to solidify into a three-dimensional object. During melting and solidification, the structures produced using this method don’t crack and are able to maintain their full alloy strength, thanks to the nanoparticles acting as nucleation sites for the intended alloy microstructure.

  “Our first goal was figuring out how to eliminate the hot cracking altogether. We sought to control microstructure and the solution should be something that naturally happens with the way this material solidifies,” Martin said.


  High-strength alloys like aluminum — including types like Al7075 and Al6061 — are currently used in engineering aircraft and automobile parts, like in airplane fuselages. However, current methods are largely expensive and are unable to allow finer manipulation of these materials.

  Now, with this HRL’s new nanofunctionalization technique that’s easily scalable, it’s possible to 3D print these high-strength alloys in all shapes and sizes. This allows faster, cheaper, and more detailed manufacturing using high-strength materials. Furthermore, because melting and solidification in 3D printing is akin to welding, their technique makes it possible to weld previously unweldable alloys.

  To determine which particles had the properties they needed, the HRL team asked help from Citrine Informatics. “The point of using informatics software was to do a selective approach to the nucleation theory we knew to find the materials with the exact properties we needed,” HRL’s Brennan Yahata explained. “Once we told them what to look for, their big data analysis narrowed the field of available materials from hundreds of thousands to a select few. We went from a haystack to a handful of possible needles.”

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