Acquisitions & PartnershipsMaterialsSustainability

Ford and HP reuse spent 3D printed powders and parts

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Ford teamed up with HP to reuse spent 3D printed powders and parts, thus closing a supply chain loop and turning them into injection-molded vehicle parts. The recycled materials are being used to manufacture injection-molded fuel-line clips installed first on Super Duty F-250 trucks.  The parts have better chemical and moisture resistance than conventional versions, are 7% lighter and cost 10% less. The Ford research team has identified 10 other fuel-line clips on existing vehicles that could benefit from this innovative use of material and are migrating it to future models.

Sustainability is a priority for both companies, which, through joint exploration, led to this unlikely, earth-friendly solution. The resulting injection-molded parts are better for the environment with no compromise in the durability and quality standards Ford and its customers demand.

“Finding new ways to work with sustainable materials, reducing waste and leading the development of the circular economy are passions at Ford,” said Debbie Mielewski, Ford technical fellow, Sustainability.

“Many companies are finding great uses for 3D printing technologies, but, together with HP, we’re the first to find a high-value application for waste powder that likely would have gone to landfill, transforming it into functional and durable auto parts.”

Ford 3D-printed wheel nut
Ford 3D printed wheel nut

HP 3D printers are already designed for high efficiency, with systems and structures to minimize the excess material they generate and reuse a greater percentage of the materials put into them. Working with Ford, which uses HP’s 3D printing technology at the company’s Advanced Manufacturing Center, the team created this solution that produces zero waste.

“You get more sustainable manufacturing processes with 3D, but we are always striving to do more, driving our industry forward to find new ways to reduce, reuse and recycle powders and parts,” said Ellen Jackowski, chief sustainability and social impact officer, HP. “Our collaboration with Ford extends the environmental benefits of 3D printing even further, showcasing how we are bringing entirely different industries together to make better use of spent manufacturing materials, enabling a new circular economy.”

For its part, Ford is developing new applications and utilizing a multitude of different processes and materials for 3D printing, including filaments, sand, powders and liquid vat polymerization. The company already employs 3D printing for a variety of low-volume commercial vehicle parts, as well as fixtures used by assembly line workers, saving time and enhancing quality.

Companywide, Ford has a goal to achieve 100% sustainable materials in its vehicles.

“A key to achieving our sustainability goals and solving the broader problems of society is working with other like-minded companies. We can’t do it alone,” Mielewski said. “With HP, we defined the waste problem, solved technical challenges and found a solution in less than one year, which is something in which we all take pride.”

Three other companies helped Ford and HP make the project outcome possible.

SmileDirectClub, the next-generation oral care company with the first medtech platform for straightening teeth, operates the largest facility of HP 3D printing systems in the U.S. The company’s fleet of more than 60 HP 3D printers produces more than 40,000 aligners a day. The resulting used 3D printed parts are collected and recycled with HP to increase volume for Ford.

Resin producer Lavergne, a longtime recycling partner of HP, transforms those molds and discarded powder from Ford’s HP 3D printers into high-quality recycled plastic pellets, suitable for injection molding. The pellets are then molded into fuel-line clips by Ford supplier ARaymond, who designs, engineers and manufactures assembly systems.

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Adam Strömbergsson

Adam is a legal researcher and writer with a background in law and literature. Born in Montreal, Canada, he has spent the last decade in Ottawa, Canada, where he has worked in legislative affairs, law, and academia. Adam specializes in his pursuits, most recently in additive manufacturing. He is particularly interested in the coming international and national regulation of additive manufacturing. His past projects include a history of his alma mater, the University of Ottawa. He has also specialized in equity law and its relationship to judicial review. Adam’s current interest in additive manufacturing pairs with his knowledge of historical developments in higher education, copyright and intellectual property protections.

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