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![]() by Staff Writers Pullman WA (SPX) Jun 12, 2018
Similar to the advance from black and white to color printing, a Washington State University research team for the first time has used 3D printing technology in a one-step process to print structures made of two different materials. The advance could potentially help manufacturers reduce manufacturing steps and use one machine to make complex products with multiple parts in one operation. Until now, 3D printing, also known as additive manufacturing, has been limited to using mostly one material at a time. Led by Amit Bandyopadhyay, Herman and Brita Lindholm Endowed Chair Professor in the School of Mechanical and Materials Engineering, the researchers used 3D printing technology to print out metal and ceramic structures as well as a bimetallic tube that is magnetic in one end and nonmagnetic in the other. The report on their work is published in the May issue of Additive Manufacturing.
More precise, versatile product characteristics However, manufacturers can only put one material into a printer to print out parts. By being able to use more than one material at a time, they will be able to better control properties like heat conduction, corrosion protection, as well as environmental adaptation in their materials. "This is a step towards the next level of manufacturing and the next generation of design, validation, optimization and manufacturing using 3D printing," said Bandyopadhyay.
Strength without adhesives "You could be joining two very strong materials together, but their connection will only be as strong as their adhesive," said Bandyopadhyay. "Multimaterial, additive manufacturing helps get rid of the weak point." The researchers, including graduate students Bryan Heer and Bonny Onuike, used a laser-based 3D printer to join the materials in a single step, printing out a nickel-chromium and copper structure. Inconel 718 is a nickel-chromium alloy used in liquid-fueled rockets and for sheet metal parts for airplane engines. The material is able to withstand high temperatures well, but it cools very slowly. When the researchers added the copper in the 3D printing process, the part could be cooled 250 percent faster, meaning a longer life and higher fuel efficiency for airplane engines.
Increased design options Working with graduate students Tom Gualtieri and Yanning Zhang, the researchers also printed metal-ceramic material in one operation. "This allows us to vary the composition and add functionality to a product during 3D printing that is traditionally very difficult to achieve," he said. "And we can do this in a single process with a single machine."
![]() ![]() Large-scale and sustainable 3D printing with the most ubiquitous natural material Singapore (SPX) Jun 07, 2018 Cellulose is one of the most abundant and broadly distributed organic compound and industrial by-product on Earth. Yet, despite decades of extensive research, the bottom-up use of cellulose to fabricate 3D objects is still plagued with problems that restrict its practical applications: derivatives with vast polluting effects, used in combination with plastics, lack of scalability and high production cost. However, researchers from the Singapore University of Technology and Design (SUTD) have recen ... read more
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