Ford Pilots 3D Printing Initiative for Tooling
The goal is to allow local plant floor workers without 3D printing experience to generate tools, jigs and fixtures using Ultimaker 3D printers.
May 28, 2019
As part of a wide-scale effort to integrate 3D printing into all avenues of its product development and manufacturing processes, Ford is pursuing a pilot project to jump-start the design of tools and fixtures, including making it easier for plant floor workers to produce components on their own without help from experienced experts.
Ford’s Cologne, Germany, pilot plant maintains a small-scale manufacturing line, which develops cars years before they go into production. As part of their efforts, the team has been honing an optimized workflow to create jigs, tools and fixtures at local plants using 3D printing techniques as opposed to subbing out the components to external partners. Ford has established a dedicated 3D printing workshop at the pilot plant, which allows engineers to iterate custom tool designs to meet their goals of accelerating time to market on key vehicle programs, but also to ensure ergonomic benefits for its workforce.
An Open Approach to 3D Printing Materials
As part of the initiative, Ford’s team has installed Ultimaker 3D printers in the Cologne, Germany, factory, among other European facilities. The Ultimaker printers’ open filament approach enables Ford engineers to take advantage of an array of industrial-grade materials, allowing for greater flexibility in designs, Ford officials say.
“Open filament is very important to us because we can use different filaments from different companies, even use industrial filaments which help us to make very durable tools and fixtures for our high-volume production,” says Raphael Koch, research engineer for Ford R&A Europe. To date, Ford has implemented more than 50 3D-printed tools for high-volume production as part of its Ford Focus vehicle program, an accomplishment that has translated into significant cost savings, Koch says.
Currently, skilled engineers model a tool design in Dassault Systemes CATIA and once it’s refined and validated, it is sent off to local plants, where it is 3D printed to use as part of the production process. Looking ahead, Ford is experimenting with software that will allow untrained plant workers to use the Ultimaker Cura software to create their own tools. The team is also testing use of Trinckle’s Paramate generative design software to simplify the tool design process so non-3D-modeling experts can get onboard.
“Designing and printing a part is something that requires knowledge about 3D printing, CAD and understanding materials properties, and this kind of knowledge is sparse,” says Paul Heiden, senior vice president product management for Ultimaker. In a traditional workflow, plant workers would have to circle back to the skilled design expert to make any changes or adjustments, but the approach that Ford is pursuing would alleviate that need. “Instead of being dependent on someone at the central competency center, workers could do it themselves at a local level,” he explains.
While today, only skilled process engineers are designing the complex fixtures, Ford’s Koch explains the new workflow empower untrained workers to design and create their own tools and fixtures. Ford’s roadmap is to leverage 3D printing workflows to design spare parts, evolve to a design for additive manufacturing approach, and reach the ultimate goal—printing production parts for production vehicles.
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About the Author
Beth Stackpole is a contributing editor to Digital Engineering. Send e-mail about this article to [email protected].Follow DE