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Abstract
The analysis of fretting fatigue plays an important role in many engineering fields. The presence of heterogeneity may affect the performance of a machine or a structure, including its lifetime and stability. In this paper, the effect of randomly distributed micro inclusions on the fretting fatigue behaviour of heterogeneous materials is analysed using the finite element method (FEM) for different sizes, shape and properties of inclusions. The effect of micro inclusions on macroscopic material properties is also considered by representative volume element (RVE). It is shown that the influence of micro inclusions on macroscopic material properties cannot be ignored, and the shape and size of the inclusions have less effect on the macroscopic material properties as compared to the material properties of inclusion and volume ratio. In addition, various parameters of inclusions have little effect on the peak tensile stress, which remains almost the same as homogeneous material. Peak shear stress occurs at many places inside the specimen, which can result in multiple cracking points inside the specimen, as well as at the contact surface. Moreover, the stress band formed by the stress coupling between adjacent inclusions may have an important influence on the direction of crack growth.
Highlights
Fretting fatigue can significantly affect structural performance in many engineering applications [1]
Before we study the influence of inclusions on fretting fatigue behavior in heterogeneous material, a brief review of Hertzian contact is presented here, which can be used to verify the finite element (FE) model for homogenous material
In order to consider the effect of inclusions in aluminum alloy 2024-T3 on the fretting
Summary
Fretting fatigue can significantly affect structural performance in many engineering applications [1]. Some experimental results about high-strength steels showed that fatigue failures were mostly caused by the inclusions inside the matrix [26,27,28,29,30,31] Both fretting fatigue and heterogeneity may significantly influence the lifetime and stability of mechanical components. Kumar et al used numerical analysis to study the influence of heterogeneity on stress distribution in fretting fatigue problems [14] They studied heterogeneity by considering micro-voids in the material, which is found in metal alloys [46]. Considering the effect of micro inclusions on macroscopic material properties by means of representative volume element (RVE), a numerical analysis is presented to study the influence of local randomly distributed inclusions on the stress distribution of fretting fatigue specimens.
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