Bird Strike Analysis on an Aircraft Aerofoil
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Date
2020-05
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Publisher
AIKTC
Abstract
Bird strikes have long been a significant threat to aviation safety. The first bird strike
dated back to September 7, 1905, recorded by the Wright brothers. The United States Air
Force reported 13427 bird/wildlife strikes to aircraft worldwide between 1989 and 1993, and
estimated the damage to civilian and military aircraft to cost hundreds of millions of dollars
every year. Most bird strikes occurred when an aircraft was at a low altitude during the takeoff
and landing phases of a flight.
The most vulnerable components to bird strikes are aircraft engines, nose, and wings.
To ensure flight safety, aviation regulations require a certain level of bird strike resistance for
critical components. As specified in Part 25 of Federal Aviation Regulations, an airplane must
be capable of successfully completing a flight during which likely a structural damage occurs
as a result of impact with a 4 lb (1 lb = 0.4536 kg) bird (8 lb for an empennage structure) when
the velocity of the airplane relative to the bird along the airplaneās flight path is equal to Vc
(design cruise speed) at the sea level or 0.85Vc at 8000 ft (1 ft = 0.3048 m), whichever is more
critical. Similar requirements have also been included in the China Civil Aviation Regulations
(CCAR) and the certification specifications CS-25 (Large Airplanes) by the European
Aviation Safety Agency. This calls for continuous efforts to design bird-strike-resistant
aircraft components through a combination of tests and simulations.
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