Aided by funding from NASA, researchers at Missouri University of Science and Technology are using additive manufacturing approaches to create stronger, more durable materials for the space agency.
For the past 15 years, the Missouri S&T researchers have been developing selective laser sintering, an additive manufacturing process which involves the use of high-powered lasers to melt small particles of powdered materials as they exit a nozzle to create three-dimensional shapes, layer by layer. Additive manufacturing approaches result in a denser, stronger material than conventional methods, such as milling, machining or forging of metals. Dr. Frank Liou, director of the university's Laser Aided Manufacturing Process (LAMP) Laboratory who also directs Missouri S&T's manufacturing engineering program, says steel parts made using the additive method are 10 percent stronger than steel that is machined.
Dr. Frank Liou observes the metal deposition process in the Laser Aided Manufacturing Process (LAMP) Laboratory at Missouri University of Science and Technology. (Credit: Missouri S&T photo)
In his latest research, Liou is combining additive manufacturing with more conventional approaches to creating materials. He calls the approach "hybrid manufacturing."
With hybrid manufacturing, S&T researchers could apply an additive manufacturing technique to create aircraft components from two different metals -- perhaps steel and copper -- and then smooth the parts' rough edges using automated computer-numerical control machining.
Liou has received about $660,000 from NASA to develop computer models of various additive manufacturing approaches. He believes the models will lead to a greater understanding of how layered materials adhere, or bond, to the surface on which they are deposited.
"In many aerospace or biomedical applications, you cannot afford metal fatigue," or cracking of the material, Liou says. "It is important to understand how well a deposited metal bonds to the surface."
Liou recently received another $750,000 from NASA to support the next step of this research: the fabrication of new materials not generally observed in nature. The research could lead to stronger metals as well as a way to repair expensive components instead of scrapping them, Liou says.
"Some dies or molds could cost a quarter of a million dollars to replace," Liou says. The Missouri S&T researchers also plan to fabricate some of these new materials soon.
Posted in 3D Printing Technology
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