Saturday, May 18, 2024

University of Michigan software reduces harm from laser heat in 3D printing

3D printers may soon get better at producing intricate metal and plastic parts, thanks to new software developed at the University of Michigan that reduces harmful heat buildup in laser powder bed fusion printers.

Called SmartScan, the software demonstrated a 41% improvement in heat distribution and a 47% reduction in deformations in a recent study.

It’s also likely to speed the manufacturing process in two ways; reducing the need for printers to slow down to help with cooling, and significantly reducing heat-caused defects that must be corrected after printing.

Laser powder bed fusion is a form of 3D printing used in aerospace, automotive, and biomedical industries to manufacture parts that are too intricate to make with conventional manufacturing. It uses a laser to fuse layers of powdered metal or plastic together. But the laser’s heat can build up in the delicate parts being printed, causing deformation and other defects.

“This problem gets even more serious for parts with really thin features,” said Chinedum Okwudire, University of Michigan associate professor of mechanical engineering. “The heat doesn’t have a lot of room to spread, so you need to be smart about how you move the laser around, otherwise your part will deform in really weird ways.”

SmartScan tackles the problem by considering how heat flows within a given part and mapping an optimized scan sequence to limit heat accumulation in any given area. It analyzes the shape of the part and the thermal properties of the material being used, including conductive and convective heat transfer.

Others in the field have experimented with varying printing patterns to reduce heat buildup, for example, by jumping from one area to another, or alternating between horizontal and vertical scanning directions. But Okwudire says SmartScan is the first solution that uses a thermal model to guide the laser to distribute heat more evenly.

“When you bring science into it, you can do it in a way that is better and works for even the most intricate parts,” Okwudire said.

To determine the effectiveness of this first version of SmartScan, the researchers used a laser to imprint an identical pattern on two stainless steel plates. They used the SmartScan process for the first plate and switched to traditional printing patterns for the second plate. The prints made with SmartScan were consistently less warped and showed more uniform heat distribution during the marking process than the other methods.

Based on the results of the experiment, the team is confident that, with further research, they’ll be able to adapt SmartScan to build full 3D parts. They plan to further improve the software by factoring the fusing of metal or plastic powder into their thermal modeling, as well as enabling active updating of a scan sequence during printing based on real-time observed temperature measurements using an infrared camera.

The research was published in Additive Manufacturing.

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