2006
DOI: 10.1002/nme.1673
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Capturing strain localization in dense sands with random density

Abstract: SUMMARYThis paper presents a three-invariant constitutive framework suitable for the numerical analyses of localization instabilities in granular materials exhibiting unstructured random density. A recently proposed elastoplastic model for sands based on critical state plasticity is enhanced with the third stress invariant to capture the difference in the compressive and extensional yield strengths commonly observed in geomaterials undergoing plastic deformation. The new three-invariant constitutive model, sim… Show more

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Cited by 95 publications
(94 citation statements)
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“…We use the 3-invariant representation of plasticity 29,30 to take account of the Lode angle dependency, while more common 2-invariant representation can be referred to Borja and Tamagnini 31 and Borja and Andrade. 32 The constitutive formulation herein is based on the framework of multiplicative hyperelasto-plasticity for finite strains.…”
Section: Elastoplastic Constitutive Modelmentioning
confidence: 99%
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“…We use the 3-invariant representation of plasticity 29,30 to take account of the Lode angle dependency, while more common 2-invariant representation can be referred to Borja and Tamagnini 31 and Borja and Andrade. 32 The constitutive formulation herein is based on the framework of multiplicative hyperelasto-plasticity for finite strains.…”
Section: Elastoplastic Constitutive Modelmentioning
confidence: 99%
“…This model has widely been used to model elastic property of cohesionless clays and sands. 30,32 The hyperelastic model for geomaterials used in the present study is an extended version proposed by Yamakawa et al 10 to include tensile strengths. The specific form of the hyperelastic energy function for this extended model is defined as…”
Section: Hyperelastic Model For Geomaterialsmentioning
confidence: 99%
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