In this interpretive review, fatigue in metallic systems is considered primarily from the
perspective of interactions between the microstructure, the deformation mode and the …

This review of multiscale modeling covers a brief history of various multiscale methodologies
related to solid materials and the associated experimental influences, the various influence …

Recent trends towards simulation of the cyclic slip behavior of polycrystalline and polyphase
microstructures of advanced engineering alloys subjected to cyclic loading are facilitating …

A novel model for revealing low cycle fatigue (LCF) fracture mechanism was established
based on molecular dynamics, extended finite element method, and representative volume …

The objective of this paper is to develop further a framework for computationally modeling
microstructurally small fatigue crack growth in AA 7075-T651 (Bozek et al 2008 Modelling …

Single-walled carbon nanotubes (SWCNTs) have excellent intrinsic mechanical properties
and would not suffer from inter-layer sliding as their multi-walled counterparts, making them …

A grain-scale three-dimensional model for the analysis of fatigue intergranular degradation
in polycrystalline materials is presented. The material microstructure is explicitly represented …

An experimentally-validated approach for predicting fatigue crack initiation life of
polycrystalline metals is developed based on crystal plasticity finite element (CPFE) …

Discrete dislocation dynamics is a numerical tool developed to model the plasticity of
crystalline materials at an intermediate length scale, between the atomistic modeling and the …

It has been observed during fatigue cracking of AA 7075-T651 that a small percentage of Al
7 Cu 2 Fe particles crack during manufacturing or very early in their life. Some of the cracked …