2008
DOI: 10.1002/nme.2400
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Locally enhanced Voronoi cell finite element model (LE‐VCFEM) for simulating evolving fracture in ductile microstructures containing inclusions

Abstract: SUMMARYDuctile heterogeneous materials such as cast aluminum alloys undergo catastrophic failure that initiates with particle fragmentation, which evolves with void growth and coalescence in localized bands of intense plastic deformation and strain softening. The Voronoi cell finite element model (VCFEM), based on the assumed stress hybrid formulation, is unable to account for plastic strain-induced softening. To overcome this shortcoming of material softening due to plastic strain localization, this study int… Show more

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Cited by 20 publications
(18 citation statements)
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“…Ghosh and coworkers [22,27,36,37] have extensively developed the Voronoi Cell Finite Element Method based on an assumed-stress hybrid finite element method. Idelsohn [31] used natural neighbor coordinates of a Delaunay tessellation of points to develop a "meshless" finite element method.…”
Section: Finite Element Formulationmentioning
confidence: 99%
See 1 more Smart Citation
“…Ghosh and coworkers [22,27,36,37] have extensively developed the Voronoi Cell Finite Element Method based on an assumed-stress hybrid finite element method. Idelsohn [31] used natural neighbor coordinates of a Delaunay tessellation of points to develop a "meshless" finite element method.…”
Section: Finite Element Formulationmentioning
confidence: 99%
“…Once crack branching and crack coalescence phenomena appear, the prospect of modeling a multitude of arbitrary three-dimensional intersecting cracks quickly becomes untenable. However, great progress in this area has been obtained by Ghosh and coworkers [22,27,36,37] in the development of the Voronoi Cell Finite Element Method (VCFEM) based on an assumedstress hybrid finite element method. The VCFEM has been used extensively to model material microstructure and quasistatic fracture.…”
Section: Introductionmentioning
confidence: 99%
“…The method has been extended to the locally enhanced VCFEM (LE-VCFEM) in Ref. 35, to model stages of ductile fracture from particle fragmentation to matrix cracking due to void nucleation, growth and coalescence. In LE-VCFEM, the stress-based hybrid VCFEM formulation is adaptively altered in regions of localized plastic flow with finite deformation, displacementbased element formulation to accommodate strain softening.…”
Section: Computational Subdomain Level 2 (X L2 ) Of Micromechanical Amentioning
confidence: 99%
“…In LE-VCFEM, the stress-based hybrid VCFEM formulation is adaptively altered in regions of localized plastic flow with finite deformation, displacementbased element formulation to accommodate strain softening. LE-VCFEM has been demonstrated to be very effective for simulating both rate-independent 35 and rate-dependent plasticity. 22,36,37 The particulate phase in each Voronoi cell element is assumed to be isotropic, linear elastic.…”
Section: Computational Subdomain Level 2 (X L2 ) Of Micromechanical Amentioning
confidence: 99%
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