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    Renforcement par inclusions des sols et des roches

    New search for: de Buhan, Patrick

    Most engineering design methods for inclusion-reinforced geotechnical structures, are based upon theoretical models aimed at describing their mechanical behaviour. Three such models are successively presented in this paper, and their respective advantages are discussed. The mixed modelling approach, which proves most suitable for performing stability analyses of reinforced structures. The homogenisation method, which is particularly relevant in the situation of densely distributed reinforcements, where it dramatically reduces the computational time. And finally, the multiphase model which may be considered as a generalisation of the homogenisation concept, making it possible to incorporate shear and bending effects of the reinforcements, as well as a matrix-inclusion interaction law.

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    Renforcement par inclusions des sols et des roches

    New search for: de Buhan, Patrick

    Most engineering design methods for inclusion-reinforced geotechnical structures, are based upon theoretical models aimed at describing their mechanical behaviour. Three such models are successively presented in this paper, and their respective advantages are discussed. The mixed modelling approach, which proves most suitable for performing stability analyses of reinforced structures. The homogenisation method, which is particularly relevant in the situation of densely distributed reinforcements, where it dramatically reduces the computational time. And finally, the multiphase model which may be considered as a generalisation of the homogenisation concept, making it possible to incorporate shear and bending effects of the reinforcements, as well as a matrix-inclusion interaction law.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Renforcement par inclusions des sols et des roches

    New search for: de Buhan, Patrick

    Most engineering design methods for inclusion-reinforced geotechnical structures, are based upon theoretical models aimed at describing their mechanical behaviour. Three such models are successively presented in this paper, and their respective advantages are discussed. The mixed modelling approach, which proves most suitable for performing stability analyses of reinforced structures. The homogenisation method, which is particularly relevant in the situation of densely distributed reinforcements, where it dramatically reduces the computational time. And finally, the multiphase model which may be considered as a generalisation of the homogenisation concept, making it possible to incorporate shear and bending effects of the reinforcements, as well as a matrix-inclusion interaction law.

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    Title:

    Renforcement par inclusions des sols et des roches

    Contributors:

    de Buhan, Patrick (author)

    Published in:

    Revue Française de Génie Civil ; 8 ; 1033-1069

    Publication date:

    2004-12-01

    Size:

    37 pages

    ISSN:

    1279-5119

    DOI:

    https://doi.org/10.1080/12795119.2004.9692640

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    reinforcement , structural design , mixed modelling , homogenisation , multiphase , renforcement , calcul d'ouvrages , modélisation mixte , homogénéisation , modèle multiphasique

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