"Multiscale modeling of a fluid saturated medium with double porosity: relevance to the compact bone" . "In this paper, we develop a model of a homogenized fluid-saturated deformable porous medium. To account for the double porosity the Biot model is considered at the mesoscale with a scale-dependent permeability in compartments representing the second-level porosity. This model is treated by the homogenization procedure based on the asymptotic analysis of periodic ``microstructure''. When passing to the limit, auxiliary microscopic problems are introduced, which provide the corrector basis functions that are needed to compute the effective material parameters. The macroscopic problem describes the deformation-induced Darcy flow in the primary porosities whereas the microflow in the double porosity is responsible for the fading memory effects via the macroscopic poro-visco-elastic constitutive law. For the homogenization procedure, we use the periodic unfolding method. We discuss also the stress and flow recovery at multiple scales characterizing the heterogeneous material. The model is proposed as a theoretical basis to describe compact bone behavior on multiple scales." . "23520" . "5" . . . "Multiscale modeling of a fluid saturated medium with double porosity: relevance to the compact bone"@en . . "In this paper, we develop a model of a homogenized fluid-saturated deformable porous medium. To account for the double porosity the Biot model is considered at the mesoscale with a scale-dependent permeability in compartments representing the second-level porosity. This model is treated by the homogenization procedure based on the asymptotic analysis of periodic ``microstructure''. When passing to the limit, auxiliary microscopic problems are introduced, which provide the corrector basis functions that are needed to compute the effective material parameters. The macroscopic problem describes the deformation-induced Darcy flow in the primary porosities whereas the microflow in the double porosity is responsible for the fading memory effects via the macroscopic poro-visco-elastic constitutive law. For the homogenization procedure, we use the periodic unfolding method. We discuss also the stress and flow recovery at multiple scales characterizing the heterogeneous material. The model is proposed as a theoretical basis to describe compact bone behavior on multiple scales."@en . "Journal of the Mechanics and Physics of Solids" . "Rohan, Eduard" . . . . . "double porous medium, Biot model, homogenization, compact bone, fading memory"@en . "Naili, S." . . . "25"^^ . . . . "60" . "Multiscale modeling of a fluid saturated medium with double porosity: relevance to the compact bone" . . "RIV/49777513:23520/12:43915300" . "Cimrman, Robert" . . "RIV/49777513:23520/12:43915300!RIV13-GA0-23520___" . "4"^^ . . "10.1016/j.jmps.2012.01.013" . "152467" . . "Multiscale modeling of a fluid saturated medium with double porosity: relevance to the compact bone"@en . "[196B79867358]" . . "Lemaire, T." . . . "P(ED1.1.00/02.0090), P(GA106/09/0740)" . "1"^^ . "GB - Spojen\u00E9 kr\u00E1lovstv\u00ED Velk\u00E9 Brit\u00E1nie a Severn\u00EDho Irska" . "0022-5096" .