Propagation des fronts de fissure plane dans les matériaux fragiles hétérogènes de dimensions finies

Sylvain Patinet; Joël Frelat; Veronique Lazarus; Damien Vandembroucq

doi:10.1051/meca/2011112

Propagation des fronts de fissure plane dans les matériaux fragiles hétérogènes de dimensions finies

Sylvain Patinet
, Joël Frelat
, Veronique Lazarus
, Damien Vandembroucq

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

Our approach consists in testing the classical crack-pinning models for controlled toughness patterns and realistic sample geometries, i.e. of finite size. We model the effect of sample thickness on the stress intensity factor at the crack tip. The predictions of the theoretical model developed in [L. Legrand, S. Patinet, J.-B. Leblond, J. Frelat, V. Lazarus, D. Vandembroucq, Coplanar perturbation of a crack lying on the mid-plane of a plate, Int. J. Frac.] are validated by finite-element calculations. These calculations converge as a function of the crack front perturbation frequency towards two asymptotic regimes: semi-infinite medium and thin plate. In the case of a crack interacting with a single defect, we compare our calculations with an experimental crack configuration. We show a remarkable improvement of elastic line model predictions when the sample thickness is taken into account.

Titre traduit de la contribution	Propagation of planar crack fronts in heterogeneous brittle materials of finite dimensions
langue originale	Français
Pages (de - à)	199-204
Nombre de pages	6
journal	Mecanique et Industries
Volume	12
Numéro de publication	3
Les DOIs	https://doi.org/10.1051/meca/2011112
état	Publié - 28 juil. 2011

mots-clés

Crack
Elastic line
Finite-elements
Plate

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10.1051/meca/2011112

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title = "Propagation des fronts de fissure plane dans les mat{\'e}riaux fragiles h{\'e}t{\'e}rog{\`e}nes de dimensions finies",

abstract = "Our approach consists in testing the classical crack-pinning models for controlled toughness patterns and realistic sample geometries, i.e. of finite size. We model the effect of sample thickness on the stress intensity factor at the crack tip. The predictions of the theoretical model developed in [L. Legrand, S. Patinet, J.-B. Leblond, J. Frelat, V. Lazarus, D. Vandembroucq, Coplanar perturbation of a crack lying on the mid-plane of a plate, Int. J. Frac.] are validated by finite-element calculations. These calculations converge as a function of the crack front perturbation frequency towards two asymptotic regimes: semi-infinite medium and thin plate. In the case of a crack interacting with a single defect, we compare our calculations with an experimental crack configuration. We show a remarkable improvement of elastic line model predictions when the sample thickness is taken into account.",

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T1 - Propagation des fronts de fissure plane dans les matériaux fragiles hétérogènes de dimensions finies

AU - Patinet, Sylvain

AU - Frelat, Joël

AU - Lazarus, Veronique

AU - Vandembroucq, Damien

PY - 2011/7/28

Y1 - 2011/7/28

N2 - Our approach consists in testing the classical crack-pinning models for controlled toughness patterns and realistic sample geometries, i.e. of finite size. We model the effect of sample thickness on the stress intensity factor at the crack tip. The predictions of the theoretical model developed in [L. Legrand, S. Patinet, J.-B. Leblond, J. Frelat, V. Lazarus, D. Vandembroucq, Coplanar perturbation of a crack lying on the mid-plane of a plate, Int. J. Frac.] are validated by finite-element calculations. These calculations converge as a function of the crack front perturbation frequency towards two asymptotic regimes: semi-infinite medium and thin plate. In the case of a crack interacting with a single defect, we compare our calculations with an experimental crack configuration. We show a remarkable improvement of elastic line model predictions when the sample thickness is taken into account.

AB - Our approach consists in testing the classical crack-pinning models for controlled toughness patterns and realistic sample geometries, i.e. of finite size. We model the effect of sample thickness on the stress intensity factor at the crack tip. The predictions of the theoretical model developed in [L. Legrand, S. Patinet, J.-B. Leblond, J. Frelat, V. Lazarus, D. Vandembroucq, Coplanar perturbation of a crack lying on the mid-plane of a plate, Int. J. Frac.] are validated by finite-element calculations. These calculations converge as a function of the crack front perturbation frequency towards two asymptotic regimes: semi-infinite medium and thin plate. In the case of a crack interacting with a single defect, we compare our calculations with an experimental crack configuration. We show a remarkable improvement of elastic line model predictions when the sample thickness is taken into account.

KW - Crack

KW - Elastic line

KW - Finite-elements

KW - Plate

UR - https://www.scopus.com/pages/publications/79960685536

U2 - 10.1051/meca/2011112

DO - 10.1051/meca/2011112

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SN - 1296-2139

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EP - 204

JO - Mecanique et Industries

JF - Mecanique et Industries

IS - 3

ER -

Propagation des fronts de fissure plane dans les matériaux fragiles hétérogènes de dimensions finies

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