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    Large Deformation Dynamic Meshfree Simulation of Damage and Failure in Geomaterials

    Neue Suche nach: Wang, Dong Dong

    An explicit dynamic Galerkin meshfree formulation under the updated Lagrangian framework is presented to simulate large deformation damage and failure process in geomaterials. The failure initiation and development are characterized by the pressure sensitive Drucker-Prager plasticity coupled with the isotropic energy-based damage theory. A stabilized conforming nodal integration based on non-local gradient smoothing is employed to improve the computational efficiency and to regularize the material instability arising from strain localization. The capability of the proposed methodology to model the evolution of dynamic failure in geomaterials is demonstrated through a numerical example.

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    Large Deformation Dynamic Meshfree Simulation of Damage and Failure in Geomaterials

    Neue Suche nach: Wang, Dong Dong

    An explicit dynamic Galerkin meshfree formulation under the updated Lagrangian framework is presented to simulate large deformation damage and failure process in geomaterials. The failure initiation and development are characterized by the pressure sensitive Drucker-Prager plasticity coupled with the isotropic energy-based damage theory. A stabilized conforming nodal integration based on non-local gradient smoothing is employed to improve the computational efficiency and to regularize the material instability arising from strain localization. The capability of the proposed methodology to model the evolution of dynamic failure in geomaterials is demonstrated through a numerical example.

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    Verfügbarkeit in meiner Bibliothek prüfen
    Bestellung bei Subito €

    Large Deformation Dynamic Meshfree Simulation of Damage and Failure in Geomaterials

    Neue Suche nach: Wang, Dong Dong

    An explicit dynamic Galerkin meshfree formulation under the updated Lagrangian framework is presented to simulate large deformation damage and failure process in geomaterials. The failure initiation and development are characterized by the pressure sensitive Drucker-Prager plasticity coupled with the isotropic energy-based damage theory. A stabilized conforming nodal integration based on non-local gradient smoothing is employed to improve the computational efficiency and to regularize the material instability arising from strain localization. The capability of the proposed methodology to model the evolution of dynamic failure in geomaterials is demonstrated through a numerical example.

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    Titel:

    Large Deformation Dynamic Meshfree Simulation of Damage and Failure in Geomaterials

    Beteiligte:

    Wang, Dong Dong

    Erschienen in:

    Key Engineering Materials ; 324-325 ; 141-144

    Erscheinungsdatum:

    15.11.2006

    Format / Umfang:

    4 pages

    ISSN:

    1662-9795 , 1013-9826

    DOI:

    https://doi.org/10.4028/www.scientific.net/KEM.324-325.141

    Medientyp:

    Aufsatz (Zeitschrift)

    Format:

    Elektronische Ressource

    Sprache:

    Englisch

    Schlagwörter:

    Dynamic Meshfree Simulation , Geomaterial , Failure , Damage , Large Deformation

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