T2 News

Goodyear, Sandia Labs 25-Year Partnership Continues to Improve Tire Design

Dept. of Energy

In a collaboration almost as old as technology transfer (T2) itself, Sandia National Laboratories (Sandia) and The Goodyear Tire & Rubber Company have worked together for 25 years to create better vehicle tires and more advanced computational mechanics.

“You might wonder how national defense systems relate to tire engineering,” said Susan Seestrom, Sandia’s chief research officer. “But a tire is a complex system—one of the most formidable challenges in computational mechanics—and that’s something Sandia knows well.”

The joint work allows Sandia to enhance its software toolkits and improve capabilities for mission applications, while simultaneously addressing Goodyear’s proprietary challenges. “It is remarkably complicated to model and simulate tire performance, let alone under varying temperature, pressure and wear conditions,” said Chris Helsel, Goodyear’s chief technology officer. “Our computational work with Sandia is a continuous source of competitive advantage for Goodyear, helping us design and deliver high-performance products and services in a digital economy.”

Goodyear’s engineers design every tire with Sandia-developed tools. The company credits its work with Sandia with reducing new product development times, improving manufacturing methods, and lowering both technical and operational costs.

Ted Blacker, Sandia’s manager of Simulation Modeling Sciences, said the partnership has been successful because it is strategic. “We focus on strategic technical challenges where advanced technology from both sides can change the future,” he said. “Almost without fail, the new capabilities they commission us to develop, for example, to model rotating, twisting and deforming tires, help us with simulations in our national security work.”

Sandia and Goodyear signed a Cooperative Research and Development Agreement (CRADA) in 1993, when technology transfer from the national labs was in its nascent stage. In 1980, the Stevenson-Wydler Technology Innovation Act was signed into law by President Jimmy Carter, becoming the first major U.S. technology transfer legislation. It required federal laboratories to actively participate in and budget for technology transfer activities.

Stevenson-Wydler was followed by the Federal Technology Act of 1986, the second major piece of legislation focused on technology transfer from federal government agencies to the private sector. It established the Federal Laboratory Consortium for Technology Transfer (FLC) and let federal labs enter into CRADAs with private industry.

“Tech transfer was an exciting new opportunity for the labs,” said Mary Monson, senior manager of Technology Partnerships at Sandia. “The Department of Energy really embraced the tech transfer concept for federal agencies in the late 1980s and early 1990s. Part of the defense programs budget was put aside for U.S. economic security for the nation, as well as enhancing the capabilities of the labs through solving complex real-world problems. Labs identified their capabilities and were authorized to collaborate with partners.”

A Distinctive Tire

An early victory for the collaboration was the Assurance TripleTred, a unique all-weather tire with a three-part tread compound. Goodyear wanted a visually distinctive tire that would generate buzz and demonstrate its best technology. The Assurance line was launched in 2004, and in 2005 Sandia and Goodyear won a joint R&D 100 Award for the tires, particularly the TripleTred, which was brought from concept to market in less than a year. Goodyear said the tire could not have been produced without the modeling and predictive testing tools developed with Sandia.

A wide range of lab technologies has played a role in the CRADA, including advanced computational mechanics, sophisticated geometry and meshing, computational simulation and verification, elastomeric materials, structural and tire dynamics, advanced manufacturing of rubber products, efficient characterization methods for structural dynamics, reliability tools for manufacturing processes, sensor systems, data science, human reliability and engineered products.

“Our relationship with Sandia has been very beneficial in our competitive success in the global automotive industry, allowing us to begin submitting ‘virtual tires’ to automakers that can be incorporated into their vehicle models early in the development process as they tune the vehicle designs,” Moseley said.

The CRADA has been renewed repeatedly since 1993. Much research done under the CRADA has been applied to Sandia’s science-based nuclear weapons stockpile stewardship mission.

“So many good things have come out of this enduring partnership,” Monson said. “It has worked both ways. We were able to apply our codes to a real-world problem and improve our codes. And Goodyear was able to develop revolutionary products.”

To read the entire Sandia press release, visit http://bit.ly/2loHKBb.

T2 News
Far West