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W2396014013 abstract "Advances in higher resolution experimental techniques have shown that metallic materials can develop fatigue cracks under cyclic loading levels significantly below the yield stress. Indeed, the traditional notion of a fatigue limit can be recast in terms of limits associated with nucleation and arrest of fatigue cracks at the microstructural scale. Although fatigue damage characteristically emerges from irreversible dislocation processes at sub-grain scales, the specific microstructure attributes, environment, and loading conditions can strongly affect the apparent failure mode and surface to subsurface transitions. In this paper we discuss multiple mechanisms that occur during fatigue loading in the high cycle fatigue (HCF) to very high cycle fatigue (VHCF) regimes. We compare these regimes, focusing on strategies to bridge experimental and modeling approaches exercised at multiple length scales and discussing particular challenges to modeling and simulation regarding microstructure-sensitive fatigue driving forces and thresholds. We conclude by discussing some of the challenges in predicting the transition of failure mechanisms at different stress and strain amplitudes." @default.
W2396014013 created "2016-06-24" @default.
W2396014013 creator A5005595633 @default.
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W2396014013 creator A5038563146 @default.
W2396014013 date "2016-12-01" @default.
W2396014013 modified "2023-10-01" @default.
W2396014013 title "Computational micromechanics of fatigue of microstructures in the HCF–VHCF regimes" @default.
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W2396014013 doi "https://doi.org/10.1016/j.ijfatigue.2016.05.019" @default.
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