Industrial Automation Magazine India

New NASA 3D-printed superalloy can take the heat

Published on : Wednesday 26-04-2023

GRX-810 was developed under NASAs Transformational Tools and Technologies project.

April 2023 – NASA has demonstrated a breakthrough in 3D printable high-temperature materials that could lead to stronger, more durable parts for airplanes and spacecraft.

A team of innovators from NASA and The Ohio State University detailed the characteristics of the new alloy, GRX-810, in a peer-reviewed paper published in the journal Nature.

This superalloy has the potential to dramatically improve the strength and toughness of components and parts used in aviation and space exploration, said Dr Tim Smith of NASAs Glenn Research Center in Cleveland, lead author of the Nature paper. Smith and his Glenn colleague Christopher Kantzos invented GRX-810.

Smith and his team employed time-saving computer modeling, as well as a laser 3D printing process that fused metals together, layer-by-layer, to create the new alloy. They used this process to produce the NASA logo pictured above.

GRX-810 is an oxide dispersion strengthened alloy. In other words, tiny particles containing oxygen atoms spread throughout the alloy enhance its strength. Such alloys are excellent candidates to build aerospace parts for high-temperature applications, like those inside aircraft and rocket engines, because they can withstand harsher conditions before reaching their breaking points.

Current state-of-the-art 3D printed superalloys can withstand temperatures up to 2,000 degrees Fahrenheit. Compared to those, GRX-810 is twice as strong, over 1,000 times more durable, and twice as resistant to oxidation.

This new alloy is a major achievement, said Dale Hopkins, deputy project manager of NASAs Transformational Tools and Technologies project. In the very near future, it may well be one of the most successful technology patents NASA Glenn has ever produced.

A team of contributors from Glenn, NASAs Ames Research Center in Californias Silicon Valley, NASAs Marshall Space Flight Center in Huntsville, Alabama, and The Ohio State University co-authored the Nature paper. 

GRX-810 was developed under NASAs Transformational Tools and Technologies project, with support from the agencys Game Changing Development Program.