Cutting-edge technique, known as lost-PLA, leverages the benefits of 3D printing to revolutionize the traditional casting process

Tennessee Tech University‘s Department of Manufacturing and Engineering Technology, led by Chair and Professor Fred Vondra, is pioneering new approaches in metal casting through the innovative use of technology.

This makes it more efficient and cost-effective.

“Traditionally, metal casting has relied on the lost-foam process, where Styrofoam is used to create a mold,” Vondra said. 

Made from the same material as disposable coffee cups, this model is placed into a sand mold. When molten metal is poured in, the Styrofoam dissolves, and a negative space is left behind in the sand mold. In other words, as the molten metal fills the sand mold, it displaces and takes the shape of the Styrofoam. 

While effective, this method can be costly and time-consuming due to the initial creation of the Styrofoam models.

“Lost-PLA casting offers significant advantages over the traditional lost-foam process,” Vondra said. “With a 3D printer and a roll of PLA filament, which is widely available and inexpensive, we can create precise models quickly and affordably. This eliminates the need for costly Styrofoam molds and allows for easy variations in design.”

PLA, or polylactic acid, is the most widely used filament in 3D printing. It has a low cost, averaging $25 per two pounds, and a low melting point of 392 degrees Fahrenheit, making it ideal for short-run metal casting projects.

“The ability to print PLA models on-demand means we can rapidly prototype and test new casting products,” Vondra explained. “It’s a game-changer for our foundry, which is currently adapting this relatively new phenomenon.”

This innovative work is supported by a grant from the American Foundry Society.

“While lost-foam casting remains superior for high production runs, the initial cost savings and flexibility of lost-PLA make it an excellent option for short-run and prototype projects,” Vondra said.

As an expert in metal casting, Vondra’s career has been marked by his contributions to setting up foundry processes. 

“When I was a grad student at the University of Northern Iowa, I helped establish their foundry. Now, as I approach retirement, I’m excited to set up a new foundry in Tech’s new ACME [Advanced Construction and Manufacturing Engineering] building,” he said. 

Earlier this summer, Vondra was among several American Foundry Society members who traveled to Washington, D.C. to meet Sen. Marsha Blackburn, who was presented with the organization’s Manufacturing Champion Award. “Getting to meet with and talk to her was a wonderful highlight,” he said.

Vondra and other professors in the Department of Manufacturing and Engineering Technology provide students with hands-on experiences with cutting-edge processes to prepare them for their future careers, and Tech is committed to advancing knowledge and innovation through research and practical applications.

But while metal casting is central to manufacturing and engineering technology, Vondra adds, it is also so much more.

“Metal casting is a skill, a craft and an art, all at the same time,” he said. 

Vondra says he was reminded of this on his recent trip to the nation’s capital when he viewed a moving piece of cast metal artwork at the Vietnam Veterans Memorial.

“It’s a sculpture of nurses receiving injured soldiers, and the expression on their faces is of pure anguish. It’s profoundly impactful, and the artist’s talent in capturing such emotion through metal casting was remarkable,” Vondra said.

Learn more about the Department of Manufacturing and Engineering Technology at https://www.tntech.edu/engineering/programs/met/index.php.

Photo courtesy of Tennessee Tech.

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