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Hauptverfasser: Zhai, Xinyuan, Corre, Thomas, Mesgarnejad, Ataollah, Karma, Alain, Lazarus, Veronique
Format: Preprint
Veröffentlicht: 2024
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2404.08451
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author Zhai, Xinyuan
Corre, Thomas
Mesgarnejad, Ataollah
Karma, Alain
Lazarus, Veronique
author_facet Zhai, Xinyuan
Corre, Thomas
Mesgarnejad, Ataollah
Karma, Alain
Lazarus, Veronique
contents The propagation path of quasistatic cracks under monotonic loading is known to be strongly influenced by the anisotropy of the fracture energy in crystalline solids or engineered materials with a regular microstructure. Such cracks generally follow directions close to minima of the fracture energy. Here we demonstrate both experimentally and computationally that fatigue cracks under cyclic loading follow dramatically different paths that are predominantly dictated by the symmetry of the loading with the microstructure playing a negligible or subdominant role.
format Preprint
id arxiv_https___arxiv_org_abs_2404_08451
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Path differences between quasistatic and fatigue cracks in anisotropic media
Zhai, Xinyuan
Corre, Thomas
Mesgarnejad, Ataollah
Karma, Alain
Lazarus, Veronique
Materials Science
The propagation path of quasistatic cracks under monotonic loading is known to be strongly influenced by the anisotropy of the fracture energy in crystalline solids or engineered materials with a regular microstructure. Such cracks generally follow directions close to minima of the fracture energy. Here we demonstrate both experimentally and computationally that fatigue cracks under cyclic loading follow dramatically different paths that are predominantly dictated by the symmetry of the loading with the microstructure playing a negligible or subdominant role.
title Path differences between quasistatic and fatigue cracks in anisotropic media
topic Materials Science
url https://arxiv.org/abs/2404.08451