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    On the Formulation of Multiphase Porous Geomaterials

    New search for: Oka, Fusao
    New search for: Kimoto, Sayuri

    Abstract For partially saturated soils, several stress variables have been used such as the net stress, Bishop stress, generalized Bishop stress and skeleton stress have been used. For elastic behavior of water saturated geomaterials, Biot developed a theory of porous media which is equivalent to the elastic water saturated model with the effective stress with the so-called Biot constant. On the other hand, for inelastic response, the applicability of the effective stress with Biot constant has not yet well been studied. In this study, the authors present the formulation of two phase and three-phase geomaterials based on the continuum thermodynamics with internal variables. It has been found that the effective stress with Biot coefficient is obtained for elastic two-phase materials, and the skeleton stress with Biot constant can be derived for three-phase materials such as partially saturated soil.

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    On the Formulation of Multiphase Porous Geomaterials

    New search for: Oka, Fusao
    New search for: Kimoto, Sayuri

    Abstract For partially saturated soils, several stress variables have been used such as the net stress, Bishop stress, generalized Bishop stress and skeleton stress have been used. For elastic behavior of water saturated geomaterials, Biot developed a theory of porous media which is equivalent to the elastic water saturated model with the effective stress with the so-called Biot constant. On the other hand, for inelastic response, the applicability of the effective stress with Biot constant has not yet well been studied. In this study, the authors present the formulation of two phase and three-phase geomaterials based on the continuum thermodynamics with internal variables. It has been found that the effective stress with Biot coefficient is obtained for elastic two-phase materials, and the skeleton stress with Biot constant can be derived for three-phase materials such as partially saturated soil.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    On the Formulation of Multiphase Porous Geomaterials

    New search for: Oka, Fusao
    New search for: Kimoto, Sayuri

    Abstract For partially saturated soils, several stress variables have been used such as the net stress, Bishop stress, generalized Bishop stress and skeleton stress have been used. For elastic behavior of water saturated geomaterials, Biot developed a theory of porous media which is equivalent to the elastic water saturated model with the effective stress with the so-called Biot constant. On the other hand, for inelastic response, the applicability of the effective stress with Biot constant has not yet well been studied. In this study, the authors present the formulation of two phase and three-phase geomaterials based on the continuum thermodynamics with internal variables. It has been found that the effective stress with Biot coefficient is obtained for elastic two-phase materials, and the skeleton stress with Biot constant can be derived for three-phase materials such as partially saturated soil.

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    Title:

    On the Formulation of Multiphase Porous Geomaterials

    Contributors:

    Oka, Fusao (author) / Kimoto, Sayuri (author)

    Published in:

    Desiderata Geotechnica ; 143-146

    Springer Series in Geomechanics and Geoengineering

    Publication date:

    2019-01-01

    Size:

    4 pages

    ISBN:

    978-3-030-14987-1 , 978-3-030-14986-4

    ISSN:

    1866-8755 , 1866-8763

    DOI:

    https://doi.org/10.1007/978-3-030-14987-1_17

    Type of media:

    Article/Chapter (Book)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Multi-phase geomaterials , Skeleton stress , Unsaturated soil Engineering , Geoengineering, Foundations, Hydraulics , Geotechnical Engineering & Applied Earth Sciences

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