A crystal plastic finite element model for the effect of surface integrity on multiaxial fatigue life after multistage machining processes

Author:

Liang Jiabin1,Jiao Li2,Yan Pei2,Song Yifan1,Li Siyu1,Dai Zhicheng1,Wang Xibin2

Affiliation:

1. School of Mechanical Engineering Beijing Institute of Technology Beijing China

2. Key Laboratory of Fundamental Science for Advanced Machining Beijing Institute of Technology Beijing China

Abstract

AbstractSurface integrity influences the material fatigue performance significantly, but most micromechanical models based on crystal plasticity only consider the microstructure of the matrix. In this paper, a crystal plastic finite element modeling method was proposed, which simultaneously considered surface roughness, residual stress, and gradual microstructure. It was verified through multiaxial fatigue experiments of materials processed by different multistage machining processes. The results show that larger axial residual compressive stress and smaller grain size can lead to higher multiaxial fatigue life. The existence of residual compressive stress causes the location of material crack initiation to decrease from the surface layer to the subsurface layer. The proposed model can predict the multiaxial fatigue life of materials within a 50% error band.

Funder

National Natural Science Foundation of China

Publisher

Wiley

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