Add to ORKGAbstract-In this paper, we present a general two-dimensional finite element alternating method for the determination of weight functions for isotropic or orthotropic cracked structures, subjected to mixed-mode loading. The numerical results show that the weight functions are indeed load-independent, and are insensitive to a wide range of virtual crack extensions of Aa (lo-‘a _ 10W9a). The present alternating procedure (which involves a stress analysis of only the untracked structure) is indeed a most effective technique for engineering fracture and life estimation analyses. 1
A finite-element alternating method is presented for 2-D Mode-1 crack problems. An analytical soluti...
The aim of this work was to predict,from the material constants, mixed-mode energy release rates in ...
The needs of modeling orthotropic materials have been recently revived with great interest, having e...
Abstract-In this paper, we present a general two-dimensional finite element alternating method for t...
Abstract-In this paper, two different techniques for mixed-mode type engineering fracture analysis, ...
[[abstract]]A finite element alternating method is presented and applied to analyze two-dimensional ...
AWa&--The concept of the Schwartz-Neumann alternating method, in conjunction with the boundary e...
Approximate weight functions are derived and validated numerically for isotropic and orthotropic dou...
International audienceIn this paper, an improved version of path independent integral is derived to ...
An alternating method, in conjunction with the finite element method and an analytical solution for ...
Mixed-mode fracture problems of orthotropic functionally graded materials (FGMs) are examined under ...
Mixed-mode fracture problems of orthotropic functionally graded materials (FGMs) are examined under ...
AbstractMixed-mode fracture problems of orthotropic functionally graded materials (FGMs) are examine...
[[abstract]]A finite element alternating procedure developed to deal with the cracked plate in symme...
Approximate weight functions are proposed and validated numerically for an orthotropic double cantil...
A finite-element alternating method is presented for 2-D Mode-1 crack problems. An analytical soluti...
The aim of this work was to predict,from the material constants, mixed-mode energy release rates in ...
The needs of modeling orthotropic materials have been recently revived with great interest, having e...
Abstract-In this paper, we present a general two-dimensional finite element alternating method for t...
Abstract-In this paper, two different techniques for mixed-mode type engineering fracture analysis, ...
[[abstract]]A finite element alternating method is presented and applied to analyze two-dimensional ...
AWa&--The concept of the Schwartz-Neumann alternating method, in conjunction with the boundary e...
Approximate weight functions are derived and validated numerically for isotropic and orthotropic dou...
International audienceIn this paper, an improved version of path independent integral is derived to ...
An alternating method, in conjunction with the finite element method and an analytical solution for ...
Mixed-mode fracture problems of orthotropic functionally graded materials (FGMs) are examined under ...
Mixed-mode fracture problems of orthotropic functionally graded materials (FGMs) are examined under ...
AbstractMixed-mode fracture problems of orthotropic functionally graded materials (FGMs) are examine...
[[abstract]]A finite element alternating procedure developed to deal with the cracked plate in symme...
Approximate weight functions are proposed and validated numerically for an orthotropic double cantil...
A finite-element alternating method is presented for 2-D Mode-1 crack problems. An analytical soluti...
The aim of this work was to predict,from the material constants, mixed-mode energy release rates in ...
The needs of modeling orthotropic materials have been recently revived with great interest, having e...