Boundary element analysis of three-dimensional interface cracks in transversely isotropic bimaterials using the Energy Domain Integral

N. O. Larrosa; J. E. Ortiz; A. P. Cisilino

doi:10.4028/www.scientific.net/KEM.454.47

Boundary element analysis of three-dimensional interface cracks in transversely isotropic bimaterials using the Energy Domain Integral

N. O. Larrosa, J. E. Ortiz, A. P. Cisilino

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

Abstract

It is presented in this paper a three-dimensional Boundary Element Method (BEM) implementation of the Energy Domain Integral for the fracture mechanical analysis of three-dimensional interface cracks in transversely isotropic bimaterials. The J-integral is evaluated using a domain representation naturally compatible with the BEM, in which the stresses, strains and derivatives of displacements at internal points are evaluated using their appropriate boundary integral equations. Several examples are solved and the results compared with those available in the literature to demonstrate the efficiency and accuracy of the implementation to solve straight and curved crack-front problems.

Original language	English
Pages (from-to)	47-77
Number of pages	31
Journal	Key Engineering Materials
Volume	454
DOIs	https://doi.org/10.4028/www.scientific.net/KEM.454.47
Publication status	Published - 2011

Keywords

Boundary element method
Energy domain integral
Three-dimensional interface cracks
Transversely isotropic bimaterials

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abstract = "It is presented in this paper a three-dimensional Boundary Element Method (BEM) implementation of the Energy Domain Integral for the fracture mechanical analysis of three-dimensional interface cracks in transversely isotropic bimaterials. The J-integral is evaluated using a domain representation naturally compatible with the BEM, in which the stresses, strains and derivatives of displacements at internal points are evaluated using their appropriate boundary integral equations. Several examples are solved and the results compared with those available in the literature to demonstrate the efficiency and accuracy of the implementation to solve straight and curved crack-front problems.",

keywords = "Boundary element method, Energy domain integral, Three-dimensional interface cracks, Transversely isotropic bimaterials",

author = "Larrosa, {N. O.} and Ortiz, {J. E.} and Cisilino, {A. P.}",

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AU - Cisilino, A. P.

PY - 2011

Y1 - 2011

N2 - It is presented in this paper a three-dimensional Boundary Element Method (BEM) implementation of the Energy Domain Integral for the fracture mechanical analysis of three-dimensional interface cracks in transversely isotropic bimaterials. The J-integral is evaluated using a domain representation naturally compatible with the BEM, in which the stresses, strains and derivatives of displacements at internal points are evaluated using their appropriate boundary integral equations. Several examples are solved and the results compared with those available in the literature to demonstrate the efficiency and accuracy of the implementation to solve straight and curved crack-front problems.

AB - It is presented in this paper a three-dimensional Boundary Element Method (BEM) implementation of the Energy Domain Integral for the fracture mechanical analysis of three-dimensional interface cracks in transversely isotropic bimaterials. The J-integral is evaluated using a domain representation naturally compatible with the BEM, in which the stresses, strains and derivatives of displacements at internal points are evaluated using their appropriate boundary integral equations. Several examples are solved and the results compared with those available in the literature to demonstrate the efficiency and accuracy of the implementation to solve straight and curved crack-front problems.

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KW - Energy domain integral

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Boundary element analysis of three-dimensional interface cracks in transversely isotropic bimaterials using the Energy Domain Integral

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Keywords

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