Algorithms and automation: Making new technology faster and cheaper

Algorithms and automation: Making new technology faster and cheaper
Compared with traditional metal additive manufacturing, this process contains multiple printable volumes that started from different building surfaces with different orientations. Credit: Xinyi Xiao, Penn State

Additive manufacturing (AM) machinery has advanced over time, however, the necessary software for new machines often lags behind. To help mitigate this issue, Penn State researchers designed an automated process planning software to save money, time and design resources.

Newer, five-axis are designed to move linearly along an x, y and z plane and rotate between the planes to allow the machine to change an object's orientation. These are an advancement on the traditional three-axis machines that lack rotation capabilities and require support structures.

Such a machine can potentially lead to large cost and time savings; however, five-axis AM lacks the same design planning and automation that three-axis have. This is where the creation of planning becomes critical.

"Five-axis AM is a young area, and the isn't there yet," said Xinyi Xiao, a summer 2020 Penn State doctoral recipient in , now an assistant professor in mechanical and at Miami University in Ohio. "Essentially, we developed a methodology to automatically map designs from CAD—computer-aided design— to AM to help cut unnecessary steps. You save money by taking less time to make the part and by also using less materials from three-axis support structures."

Xiao conducted this work as part of her doctoral program in the Penn State Harold and Inge Marcus Department of Industrial and Manufacturing Engineering under the supervision of Sanjay Joshi, professor of . Their research was published in the Journal of Additive Manufacturing.

"We want to automate the for designs to get to 'push button ,'" Joshi said. "The idea of the software is to make five-axis AM fully automated without the need for manual work or re-designs of a product. Xinyi came to me when she needed guidance or had questions, but ultimately, she held the key."

The software's algorithm automatically determines a part's sections and the sections' orientations. From this, the software designates when each section will be printed, and in which orientation within the printing sequence. Through a decomposition process, the part's geometry boils down into individual sections, each printable without support structures. As each piece is made in order, the machine can rotate throughout its axes to reorient the part and continue printing. Xiao compared it to working with Lego building blocks.

The algorithm can help inform a designer's process plan to manufacture a part. It allows designers opportunities to make corrections or alter the design before printing, which can positively affect cost. The algorithm can also inform a designer how feasible a part may be to create using support-free .

"With an algorithm, you don't really need the expertise from the user because it's in the software," Joshi said. "Automation can help with trying out a bunch of different scenarios very quickly before you create anything on the machine."

Xiao said she intends to continue this research as some of the major application areas of this technology are aerospace and automobiles.

"Large metal components, using traditional , can takes days and waste lots of materials by using support structures," Xiao said. "Additive is very powerful, and it can make a lot of things due to its flexibility; however, it also has its disadvantages. There is still more work to do."

More information: Xinyi Xiao et al, Process planning for five-axis support free additive manufacturing, Additive Manufacturing (2020). DOI: 10.1016/j.addma.2020.101569

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