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== Abstract == | == Abstract == | ||
| − | + | This paper presents different variational formulations for the modeling of damage in solids by the embedded discontinuity formulation. Initially the energy functional, for a continuum medium, if presented from which; the displacement and mixed strain-displacement formulations, of the finite element method, are developed for a solid where the damage is modeled as a discontinuity. To validate the theoretical consistency of the developed formulations, a numerical example is presented. Comments and conclusions, derived from this study, are given at the end of the paper. | |
== Full document == | == Full document == | ||
<pdf>Media:draft_Content_495697866RR263B.pdf</pdf> | <pdf>Media:draft_Content_495697866RR263B.pdf</pdf> | ||
Latest revision as of 11:00, 14 June 2017
Abstract
This paper presents different variational formulations for the modeling of damage in solids by the embedded discontinuity formulation. Initially the energy functional, for a continuum medium, if presented from which; the displacement and mixed strain-displacement formulations, of the finite element method, are developed for a solid where the damage is modeled as a discontinuity. To validate the theoretical consistency of the developed formulations, a numerical example is presented. Comments and conclusions, derived from this study, are given at the end of the paper.
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Published on 01/07/10
Accepted on 01/07/10
Submitted on 01/07/10
Volume 26, Issue 3, 2010
Licence: CC BY-NC-SA license
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