U.S. Air Force leverages robots to strip paint from venerable A-10 Thunderbolt II

Robotic media blasting used to strip paint from fighter aircraft such as the F-16 Fighting Falcon has been around at Hill Air Force Base for more than three decades. Now, the technology is being used for the first time to remove paint from the A-10 Thunderbolt II.

The 576th Aircraft Maintenance Squadron is upgrading its traditional manual media blast paint removal process by using new-generation robots to strip the paint from A-10s that come to the base for depot overhaul and maintenance.

All aircraft require regular exterior maintenance to protect their metal surfaces from corrosion due to moisture and the harsh environments in which they continually operate.

- ADVERTISEMENT - CONTINUE READING BELOW -

The process is expected to the reduce man hours it takes to strip paint from the aircraft, increase safety by removing employees from the blasting atmosphere, and result in measureable time and costs savings.

“There are going to be across-the-board improvements including a dramatic reduction in exposure to a Hexavalent Chromium dust environment. This is perhaps the greatest benefit to the robotic system,” said Tim Randolph, director for the 576th Aircraft Maintenance Squadron. “Savings will also be seen with reduced operating time and less power consumption, as well as reduced costs in material. We really haven’t found a downside to this system.”

James Gill, Corrosion Control Flight Chief for the 576th AMXS, said while the traditional manual media blast process is effective, it’s labor intensive, requiring teams of workers at least three full days to complete.

The new paint removal process is accomplished by two robots, each with four hose attachments that move independently along both sides of the aircraft. In addition, the time to strip an A-10 is decreased from three days to 9-12 hours.

“Compared to the manual paint stripping method, the robots use half the amount of blast media at half of the air pressure, while removing an extremely precise thickness, uniformly, across the entire aircraft surface,” Gill said. “This translates into a process that is less stressful on the aircraft skins and saves money in media cost, while creating only half the waste stream.”

In addition to the robotics process, a new laser burn process is currently being tested and used on F-16s with proven success. However, the squadron is still maturing the process, and hopes to apply this process to the A-10s in the future.

By using new robotic technology, the squadron is expanding its capacity by adding capability.

Randolph said each of three processes have different capabilities and inherent limitations, but combined together, can reduce the total time an aircraft spends in depot maintenance and helps return it to the warfighter faster.

If you would like to show your support for what we are doing, here's where to do it.

If you wish to report grammatical or factual errors within our news articles, you can let us know by using the online feedback form.

Executive Editor

About author:

Dylan Malyasov
Dylan Malyasov
Dylan Malyasov is the editor-in-chief of Defence Blog. He is a journalist, an accredited defense advisor, and a consultant. His background as a defense advisor and consultant adds a unique perspective to his journalistic endeavors, ensuring that his reporting is well-informed and authoritative. read more

YOU MIGHT ALSO LIKE

TRENDING NOW

Ukraine unveils new “Bohdana-BG” artillery system

Ukraine has introduced a prototype of its latest towed artillery system, the "Bohdana-BG," to international partners. According to reports from Militarny, this new artillery system...