Title of article
Effects of plasticity on subsurface initiated spalling in rolling contact fatigue
Author/Authors
Anurag Warhadpande، نويسنده , , Farshid Sadeghi، نويسنده , , Michael N. Kotzalas، نويسنده , , Gary Doll، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2012
Pages
16
From page
80
To page
95
Abstract
In this investigation an elastic–plastic Voronoi finite element (EPVFE) model for rolling contact fatigue of Hertzian line contact was developed. The EPVFE model coupled with damage mechanics approach is used to investigate rolling contact fatigue (RCF) of tribo-components. Mises based plasticity model with kinematic hardening was employed to incorporate the effects of material plasticity. The model considers both; stress and accumulated plastic strain based damage laws in the constitutive damage modeling. The results indicate that once a fatigue crack initiates within the domain, the fatigue damage induced due to the accumulated plastic strains around the crack tip drives the majority of the crack propagation stage. The results from this investigation reveal that depending on the contact pressure the crack propagation stage can constitute 15–40% of the total life. The spall shape, fatigue lives and Weibull slopes obtained from the EPVFE model correlate well with the experimental results. The developed model was also used to investigate the effects of initial material imperfections such as inclusions and elastic modulus inhomogeneity on the fatigue lives. The results indicate that material flaws within the domain lead to a significant decrease in fatigue lives and increase in life scatter.
Keywords
Rolling contact fatigue , Elastic–plastic , Mises plasticity , Kinematic hardening , Damage mechanics
Journal title
INTERNATIONAL JOURNAL OF FATIGUE
Serial Year
2012
Journal title
INTERNATIONAL JOURNAL OF FATIGUE
Record number
1162398
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