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    Fast Numerical Computation of Effective Elastic Moduli of Porous Materials

    New search for: Kabel, M.
    New search for: Andrä, H.
    New search for: Krzikalla, F.

    A fast numerical solver to compute effective properties of porous elastic composites is presented. Pores can be treated as a material phase with vanishing stiffness (vacuum) or as a compressible or incompressible material phase (e.g. air, water, oil). For the numerical homogenization (of porous materials), the equations of elasticity are reformulated as volume integral equations of Lippmann-Schwinger type for the local strain. This approach is particularly suited for 3D digital images (CT images) of complex microstructures and needs much less computational effort than finite element schemes to predict the effective properties [1]. As new application of this method we calculate amongst other the pore pressure coefficient for digital rocks. For validation the numerical results are compared with results of finite element schemes and measurements.

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    Fast Numerical Computation of Effective Elastic Moduli of Porous Materials

    New search for: Kabel, M.
    New search for: Andrä, H.
    New search for: Krzikalla, F.

    A fast numerical solver to compute effective properties of porous elastic composites is presented. Pores can be treated as a material phase with vanishing stiffness (vacuum) or as a compressible or incompressible material phase (e.g. air, water, oil). For the numerical homogenization (of porous materials), the equations of elasticity are reformulated as volume integral equations of Lippmann-Schwinger type for the local strain. This approach is particularly suited for 3D digital images (CT images) of complex microstructures and needs much less computational effort than finite element schemes to predict the effective properties [1]. As new application of this method we calculate amongst other the pore pressure coefficient for digital rocks. For validation the numerical results are compared with results of finite element schemes and measurements.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Fast Numerical Computation of Effective Elastic Moduli of Porous Materials

    New search for: Kabel, M.
    New search for: Andrä, H.
    New search for: Krzikalla, F.

    A fast numerical solver to compute effective properties of porous elastic composites is presented. Pores can be treated as a material phase with vanishing stiffness (vacuum) or as a compressible or incompressible material phase (e.g. air, water, oil). For the numerical homogenization (of porous materials), the equations of elasticity are reformulated as volume integral equations of Lippmann-Schwinger type for the local strain. This approach is particularly suited for 3D digital images (CT images) of complex microstructures and needs much less computational effort than finite element schemes to predict the effective properties [1]. As new application of this method we calculate amongst other the pore pressure coefficient for digital rocks. For validation the numerical results are compared with results of finite element schemes and measurements.

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    Order at Subito €

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    Title:

    Fast Numerical Computation of Effective Elastic Moduli of Porous Materials

    Contributors:

    Kabel, M. (author) / Andrä, H. (author) / Krzikalla, F. (author)

    Conference:

    Fifth Biot Conference on Poromechanics ; 2013 ; Vienna, Austria

    Published in:

    Poromechanics V ; 827-833

    Publication date:

    2013-06-18

    ISBN:

    9780784412992

    DOI:

    https://doi.org/10.1061/9780784412992.100

    Type of media:

    Conference paper

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Wave propagation , Poroelasticity , Computation , Mechanics , Finite element method , Simulation , Porous media , Porosity , Elasticity

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