Goodrich Receives US Air Force Contract for C-130 Boltless Wheels and Carbon Brakes
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New equipment offers significant performance, cost, and maintenance advantages
CHARLOTTE, N.C. - Goodrich Corporation (NYSE: GR) has received a follow-on contract from Defense Logistics Agency Aviation to supply over 1,600 carbon brakes and over 1,400 boltless wheels for the U.S. Air Force C-130 aircraft fleet. Deliveries will begin in October, 2011.
"With our successful development and qualification efforts behind us, we are pleased to have received this retrofit production order to begin delivery of our advanced wheels and carbon brakes to the U.S. Air Force. Upon installation, C-130 pilots and mechanics will see immediate performance improvements and maintenance savings over the current equipment, increasing reliability and reducing life-cycle costs for the U.S. Air Force," said Jim Wharton, vice president of sales and program management of Goodrich's Aircraft Wheels & Brakes business.
Goodrich's C-130 wheel and brake retrofit features DURACARB® carbon brakes which provide lighter weight, longer life, higher performance and lower cost of ownership compared to steel braking systems. The boltless aircraft wheels employ a lock-ring design, substantially lowering maintenance time and costs, in addition to reducing parts count, when compared to traditional bolted aircraft wheels. Goodrich aircraft wheels and brakes are in service on more than 20,000 military, commercial, regional and business aircraft produced by manufacturers such as Airbus, Boeing, Bombardier, Cessna, Embraer, Lockheed Martin and Northrop Grumman.
Goodrich Corporation, a Fortune 500 company, is a global supplier of systems and services to aerospace, defense and homeland security markets. With one of the most strategically diversified portfolios of products in the industry, Goodrich serves a global customer base with significant worldwide manufacturing and service facilities. For more information visit http://www.goodrich.com/.
SOURCE Goodrich Corporation; GR - Actuation and Landing Systems
