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http://dx.doi.org/10.20910/JASE.2021.15.2.16

Reliability analysis on fatigue Strength for Certification of Aircraft Composite Structures  

Choi, Cheong Ho (KIAST, Aviation Certification Division, Aviation Certification Department)
Lee, Doo Jin (KIAST, Aviation Certification Division, Aviation Certification Department)
Jo, Jae Hyun (KIAST, Aviation Certification Division, Aviation Certification Department)
Bae, Sung Hwan (KIAST, Aviation Certification Division, Aviation Certification Department)
Lee, Myung Jik (KIAST, Aviation Certification Division, Aviation Certification Department)
Lee, Jong Ho (KIAST, Aviation Certification Division, Aviation Certification Department)
Publication Information
Journal of Aerospace System Engineering / v.15, no.2, 2021 , pp. 16-25 More about this Journal
Abstract
Reliability of fatigue strength on Aircraft Composites(GFRP) Structures was assessed in this paper. Fatigue strength of GFRP was used through the existing fatigue test data with Monte Carlo method. The Sa-Nf curve of composites fatigue strength was assumed as normal distribution and reliability was analyzed using SSIT model. Fatigue stress was designed IAW ASTM F3114-15 with special safety factor of Ssf=1.2~2.0. Reliability was calculated by analytic method and FORM. Sensitivity for the effect of mean and standard deviation of fatigue strength as well as fatigue stability was evaluated. This result can be usefully applied to reliability and fatigue design for composite structures of light weight aircraft.
Keywords
Certification; Fatigue Strength; Composite Structures; Stress-Strength Interference Theory; Performance Function; Reliability Index; FORM; Sensitivity; Stability;
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