Abstract
The fatigue behavior of metallic materials is a multi-scale problem (from a time and length-scale perspective) intimately influenced by microstructural features that determine the early stages of crack propagation. Prediction... | Find, read and cite all the research you need on Tech Science Press
Highlights
The fatigue behavior of metallic materials is a multi-scale problem intimately influenced by microstructural features that determine the early stages of crack propagation
Reliable prediction of fatigue performances and its variability requires on one side the characterization and quantification of early damage mechanisms and on the other side the incorporation of local microstructural attributes and deformation mechanisms at the grain scale into microstructure-sensitive models
The present study aims at investigating the fatigue behavior of a Ti-6Al-4V alloy through a combination of experimental and numerical works
Summary
ICCES, vol.2 no.2 pp.125-125, 2019 In Situ Microscopic Observation and Crystal Plasticity Simulation of Fatigue Crack Formation in Ti-6Al-4V Alloy Fabien Briffod*, Alexandre Bleuset, Takayuki Shiraiwa and Manabu Enoki
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