Relative Entropy Method Applied for the Fatigue Life Distribution of Carbon Fiber/Epoxy Composites
Author:
Yuan Changsheng,Liang Yingjie
Abstract
This paper verifies the feasibility of the relative entropy method in selecting the most suitable statistical distribution for the experimental data, which do not follow an exponential distribution. The efficiency of the relative entropy method is tested through the fractional order moment and the logarithmic moment in terms of the experimental data of carbon fiber/epoxy composites with different stress amplitudes. For better usage of the relative entropy method, the efficient range of its application is also studied. The application results show that the relative entropy method is not very fit for choosing the proper distribution for non-exponential random data when the heavy tail trait of the experimental data is emphasized. It is not consistent with the Kolmogorov–Smirnov test but is consistent with the residual sum of squares in the least squares method whenever it is calculated by the fractional moment or the logarithmic moment. Under different stress amplitudes, the relative entropy method has different performances.
Funder
National Natural Science Foundation of China
Subject
General Physics and Astronomy
Reference33 articles.
1. A review of the fatigue analysis of an automobile frames;Chetan;Int. J. Adv. Comput. Res.,2012
2. Fatigue mechanical life design: A review;Singal;Int. J. Eng. Res. Gen. Sci.,2017
3. Testing metals and Advanced Materials in Aerospace: Expert testing support provided to the aerospace sector includes developing innovative and bespoke fatigue testing solutions on materials varying from base metal alloys to highly-engineered reinforced composites;Harrison;Quality,2014
4. Fatigue failure in aircraft structural components
5. A multifractal analysis of fatigue crack growth and its application to concrete