Un modèle micromécanique pour la nucléation de fissures en fatigue polycyclique

Vincent Monchiet; Éiric Charkaluk; Djimedo Kondo

doi:10.1051/meca:2007077

Un modèle micromécanique pour la nucléation de fissures en fatigue polycyclique

Translated title of the contribution: A micromechanical model for crack nucleation in high cycle fatigue

Vincent Monchiet
, Éiric Charkaluk
, Djimedo Kondo

CNRS UMR 8107

Research output: Contribution to journal › Article › peer-review

Abstract

A multiscale approach of multiaxial fatigue in unlimited endurance is proposed. It allows to take into account coupled plasticity and damage mechanisms which occur at the scale of Persistent Slip Bands (PSB). The damage is modelled as the consequence of microvoids growth along PSBs. The proposed macroscopic fatigue criterion, which corresponds to microcracks nucleation at the PSB-matrix interface, is derived by using Kröner homogenization scheme. The role of a mean stress and of the hydrostatic pressure in high cycle fatigue is shown. This dependence is related to the damage micro-mechanisms. Finally, some illustration concerning the particular case of affine loadings is presented. Comparisons of the obtained criterion with experimental data shown the relevance of the approach.

Translated title of the contribution	A micromechanical model for crack nucleation in high cycle fatigue
Original language	French
Pages (from-to)	537-543
Number of pages	7
Journal	Mecanique et Industries
Volume	8
Issue number	6
DOIs	https://doi.org/10.1051/meca:2007077
Publication status	Published - 1 Nov 2007
Externally published	Yes

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10.1051/meca:2007077

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title = "Un mod{\`e}le microm{\'e}canique pour la nucl{\'e}ation de fissures en fatigue polycyclique",

abstract = "A multiscale approach of multiaxial fatigue in unlimited endurance is proposed. It allows to take into account coupled plasticity and damage mechanisms which occur at the scale of Persistent Slip Bands (PSB). The damage is modelled as the consequence of microvoids growth along PSBs. The proposed macroscopic fatigue criterion, which corresponds to microcracks nucleation at the PSB-matrix interface, is derived by using Kr{\"o}ner homogenization scheme. The role of a mean stress and of the hydrostatic pressure in high cycle fatigue is shown. This dependence is related to the damage micro-mechanisms. Finally, some illustration concerning the particular case of affine loadings is presented. Comparisons of the obtained criterion with experimental data shown the relevance of the approach.",

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author = "Vincent Monchiet and {\'E}iric Charkaluk and Djimedo Kondo",

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T1 - Un modèle micromécanique pour la nucléation de fissures en fatigue polycyclique

AU - Monchiet, Vincent

AU - Charkaluk, Éiric

AU - Kondo, Djimedo

PY - 2007/11/1

Y1 - 2007/11/1

N2 - A multiscale approach of multiaxial fatigue in unlimited endurance is proposed. It allows to take into account coupled plasticity and damage mechanisms which occur at the scale of Persistent Slip Bands (PSB). The damage is modelled as the consequence of microvoids growth along PSBs. The proposed macroscopic fatigue criterion, which corresponds to microcracks nucleation at the PSB-matrix interface, is derived by using Kröner homogenization scheme. The role of a mean stress and of the hydrostatic pressure in high cycle fatigue is shown. This dependence is related to the damage micro-mechanisms. Finally, some illustration concerning the particular case of affine loadings is presented. Comparisons of the obtained criterion with experimental data shown the relevance of the approach.

AB - A multiscale approach of multiaxial fatigue in unlimited endurance is proposed. It allows to take into account coupled plasticity and damage mechanisms which occur at the scale of Persistent Slip Bands (PSB). The damage is modelled as the consequence of microvoids growth along PSBs. The proposed macroscopic fatigue criterion, which corresponds to microcracks nucleation at the PSB-matrix interface, is derived by using Kröner homogenization scheme. The role of a mean stress and of the hydrostatic pressure in high cycle fatigue is shown. This dependence is related to the damage micro-mechanisms. Finally, some illustration concerning the particular case of affine loadings is presented. Comparisons of the obtained criterion with experimental data shown the relevance of the approach.

KW - Damage

KW - Fatigue

KW - Micromechanics

KW - PSB

KW - Unlimited endurance

UR - https://www.scopus.com/pages/publications/38949144369

U2 - 10.1051/meca:2007077

DO - 10.1051/meca:2007077

M3 - Article

AN - SCOPUS:38949144369

SN - 1296-2139

VL - 8

SP - 537

EP - 543

JO - Mecanique et Industries

JF - Mecanique et Industries

IS - 6

ER -

Un modèle micromécanique pour la nucléation de fissures en fatigue polycyclique

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