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World-unique tire testing capability saves millions for warfighters

Barrett at LGTF briefed by Sami Labban

Secretary of the Air Force Barbara Barrett is briefed by Sami Labban at the Landing Gear Test Facility, Wright-Patterson Air Force Base, Ohio, April 21, 2020. Engineers here have developed a new, one-of-a-kind test capability that can identify, characterize and classify tire wear under realistic operational conditions—saving thousands per tire over the life cycle. (U.S. Air Force photo by Ty Greenlees)

Barrett at LGTF

Secretary of the Air Force Barbara M. Barrett visited the Landing Gear Test Facility at Wright-Patterson Air Force Base, Ohio, as part of her April 21, 2020 visit. The LGTF has developed a novel ground test capability that is able to identify, characterize, and classify tire wear under realistic operational conditions, which can significantly reduce acquisition development timelines, life cycle costs and mishap risks. (U.S. Air Force photo by Ty Greenlees)

WRIGHT-PATTERSON AIR FORCE BASE, Ohio --

The ability of an aircraft’s tires to endure a landing at high speeds is critical to an Air Force pilot returning to land following an operational flight.

However, predicting aircraft tire wear is a complex, time-intensive phenomenon, highly dependent on multiple variables. Historically, testers focused on the structural integrity of a tire prior to fielding and use, however the ability to quickly and accurately predict tire wear remained a challenge across the logistics community—until now.

At the Air Force Test Center’s Landing Gear Test Facility located at Wright-Patterson Air Force Base, Ohio, engineers have developed a new, one-of-a-kind test capability that can identify, characterize and classify tire wear under realistic operational conditions—saving thousands per tire over the life cycle.

“This capability significantly reduces acquisition development timelines, life cycle costs and mishap risks prior to production and fielding,” said Gary Wollam, Director, 704th Test Group’s Aerospace Survivability and Safety Office. “We’re combining digital modeling, testing and field data to effectively replicate runway surfaces and predict the behavior of a tire over time. This improves the safety of a tire and can identify issues prior to actual manufacturing and implementation on an aircraft.”

Missionized Tire Wear Testing, an effort augmented by AFMC Squadron Innovation Funds, leverages specialized lasers and digital scanning technologies with a 168-inch internal drum dynamometer--a machine that operates at speeds up to 350 mph and can provide variable levels of brake torque for aircraft tire wear testing. Replicated 3-D runway surfaces enable predictive tire wear data based on tests that use realistic ground conditions, therefore identifying potential issues and providing for design The 168-inch internal drum dynamometer is a test machine developed and commissioned in 1998 for the purpose of aircraft tire wear testing. The 168i is shown here with a tire instrumented for predictive wear testing. (U.S. Air Force photo/released)improvements early in the manufacturing process.

“The ability to clone and replicate individual runway surfaces to examine tire interactions is key to this capability,” said Wollam. “We can examine take-off, taxi and landing conditions, with the data leading to the identification of better tire wear requirements for future tire specs.”

Wollam identified a number of recent successes leveraging the testing technology.

The data from recent missionized wear tests improved tire life for one platform from approximately two to more than 24 landings per tire, with savings anticipated to exceed $6 million per year.

As a key tool in the KC-135 Life Cycle Cost Program assessment, the technology simulated the impacts of three years of landings on a tire in less than six months. The data collected is predicted to result in nearly $1.2 million in cost savings per one tire across the fleet over the next three years.

During a recent T-38 mishap investigation, the tool was used to assess cross-wind landing conditions. The testers were able to accurately replicate mishap conditions and results in a ground test environment. This resulted in new tactical guidance for landings that will be implemented into training simulators, thereby improving pilot safety.

“This next generation technology has helped us to fill test gaps, reduce flight test risks and reduce life cycle costs for the DoD fleet,” said Wollam. “This is just another one of our world-unique capabilities. As the premier Department of Defense landing gear ground test organization, we continue to innovate and push technology to ensure the safety and readiness of our warfighters.”