Optomec Receives Air Force Contract for Metal Additive System to Repair Aircraft Engines
 Next Generation Automated Machine will enable pro- duction repair of Titanium Turbine Blades.
The US Air Force has awarded Albuquerque, New Mexico based Optomec a $1 million contract to deliver a high volume production machine for refurbishing turbine engine components, including titanium parts. The equip- ment will include a range of state-of-the-art capabilities, including an automation system for batch processing, an oxygen-free controlled atmosphere, and an adaptive vision system. This automated additive repair system will be ca- pable of processing tens of thousands of repairs per year, with an initial focus on tip refurbishment for turbine blades. Optomec will also assist the US Air Force in developing optimal process parameters for a range of target repairs. The solution will be installed at Tinker Air Force Base, in Oklahoma City, which already hosts a world class compre- hensive aircraft engine overhaul capability.
The US Air Force spends billions of dollars annually servicing the engines of its military aircraft, an activity referred to as MRO (Maintenance, Repair and Overhaul). More broadly, there is a $50 Billion a year global market for Aircraft Engine MRO across all commercial and military aviation combined. A large part of the expenditure is tied to the replacement of worn or damaged components with newly made parts. In contrast, Optomec’s Metal Additive Repair solutions enable restoration of the existing parts, with a demonstrated cost savings of up to 70%. In addition to significant cost savings, the Air Force will benefit from shortened, more predictable lead times and reduced supply
chain dependencies, which translates to improved read- iness for our military.
Optomec’s metal addi- tive repair solution is based on its proprietary LENS technology, which was first commercialized more than 20 years ago. LENS uses a process called Directed Energy Deposition (DED) in which a highly concen- trated stream of metal pow- der is jetted into a molten pool created by the focus of a laser beam. By precisely controlling the melt pool and the powder flow, a high performance metal structure
is built up, either in the form of a fully printed part or as a local deposit onto an existing component to repair it.
Optomec has delivered more than 200 LENS/DED ma- chines, with nearly 100 being used in production to repair turbine blades in the commercial aviation and power genera- tion markets.
“Optomec is proud to be serving our military. We have been processing titanium for years, but not in high-volume, oxygen-free production cells, although Optomec has de- veloped automated, high-volume production cells for other alloys.” said Jamie Hanson, VP Business Development at Optomec. “The challenge given to us by the Air Force was to provide a system based on commercially proven capabili- ties that meet their production and technical requirements. We will be providing a first of a kind machine with auto- mation that enables virtually uninterrupted production in an oxygen-free environment. This capability will help enable the broader aerospace industry by meeting its cost-reduction goals going forward. We would like to thank the Air Force Rapid Sustainment Office and AFWERX for the opportunity and the streamlined process that enabled this contract.”
AFRL and AFWERX have partnered to streamline the Small Business Innovation Research process in an attempt to speed up the experience, broaden the pool of potential ap- plicants and decrease bureaucratic overhead. Beginning in SBIR 18.2, and now in 20.1, the Air Force has begun offer- ing ‘Special’ SBIR topics that are faster, leaner and open to a broader range of innovations.
20 www.CNC-West.com
CNC WEST October/November 2020