Accelerated corrosion test and corrosion failure distribution model of aircraft structural aluminum alloy
(1.山东省烟台市海军航空工程学院机载车辆工程
2.Qingdao Branch, Naval Aeronautical Engineering Academy, Qingdao 266041, China)
2.Qingdao Branch, Naval Aeronautical Engineering Academy, Qingdao 266041, China)
Abstract: Based on corrosion damage data of 10 years for a type of aircraft aluminum alloy, the statistical analysis was conducted by Gumbel, Normal and two parameters Weibull distribution function. The results show that aluminum alloy structural member has the corrosion history of pitting corrosion—intergranular corrosion—exfoliation corrosion, and the maximum corrosion depth is in conformity to normal distribution. The accelerated corrosion test was carried out with the complied equivalent airport accelerated environment spectrum. The corrosion damage failure modes of aluminum alloy structural member indicate that the period of validity of the former protective coating is about 2.5 to 3 years, and that of the novel protective coating is about 4.0 to 4.5 years. The corrosion kinetics law of aluminum spar flange was established by fitting corrosion damage test data. The law indicates two apparent corrosion stages of high strength aluminum alloy section material: pitting corrosion and intergranular corrosion/exfoliation corrosion. The test results agree with the statistical fit result of corrosion data collected from corrosion member in service. The fractional error is 5.8% at the same calendar year. The accelerated corrosion test validates the corrosion kinetics law of aircraft aluminum alloy in service.
Key words: aircraft structure; aluminum alloy; corrosion damage; probability density function; corrosion kinetics law