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A framework for fatigue life prediction of materials under the multi-level cyclic loading

Jianxiong Gao, Yiping Yuan, Rongxia Xu

2021Engineering Failure Analysis18 citationsDOIOpen Access PDF

Abstract

Fatigue life prediction of materials under the cyclic loading is still a particularly challenging task remains to be resolved. This study aims to develop a generic framework for fatigue life prediction under the multi-level cyclic (MLC) loading with consideration of the loading sequence effects. Firstly, a conditional probability density function (PDF) model is presented to quantify the fatigue life distributions of materials under any constant amplitude cyclic (CAC) loading. Subsequently, a fatigue damage accumulation model is proposed from the perspective of cumulative failure probability, which is capable of accounting for the nonlinear characteristics of damage accumulation and the loading sequence effects. Finally, a generic framework for fatigue life prediction of materials under the MLC loading is developed based on the proposed models. The fatigue life data of fiber reinforced composites under the two-level and three-level cyclic loading are utilized to verify the proposed framework. The results show that the predicted fatigue lives agree well with the fatigue test data of fiber reinforced composites. Moreover, the proposed framework can be easily extended to calculate fatigue life of materials under any MLC loading.

Topics & Concepts

Structural engineeringMaterials scienceComposite materialCyclic stressEngineeringFatigue and fracture mechanicsMechanical Behavior of CompositesStructural Behavior of Reinforced Concrete