Modeling A ============== Characteristics of modeling ------------------------ .. figure:: images/Object_26.svg :align: center :width: 480 :height: 360 3D modeling. .. list-table:: Caractéristiques du maillage. * - Number of knots - 20 * - Number of meshes - | 1 of the HEXA 20 type | 6 of the QUAD 8 type .. list-table:: Mailles définies. *-* DROITE * - NO3, NO5, NO8, N10, N10, NO12,, NO15, NO17, NO20 *-* GAUCHE * - NO1, NO4, NO6, NO9, NO11,,, NO13, NO16, NO18 *-* DEVANT * - NO6, NO7, NO8, NO11, NO12,,, NO18, NO19, NO20 *-* DERRIERE * - NO1, NO2, NO3, NO9, NO10,,, NO13, NO14, NO15 *-* BAS * - NO13, NO14, NO15, NO16, NO17,,, NO18, NO19, NO20 *-* HAUT * - NO1, NO2, NO3, NO4, NO5,,, NO6, NO7, NO8 The symmetry boundary conditions are: *On the stitches* DEVANT *and* DERRIERE *: :math:`DX=0`. *On the stitches* GAUCHE *and* DROITE *: :math:`DY=0`. *On the mesh* BAS *: :math:`DZ=0`. Tested sizes and results ------------------------------ The solutions are calculated at points NO8 to :math:`t=1, 2` and :math:`t=3` each corresponding to the times at which the three loads are completed. They are given in terms of deformation :math:`\varepsilon_{zz}=\varepsilon_v/3` in :numref:`v7.31.126-resultats_grandeurs`. .. _v7.31.126-resultats_grandeurs: .. list-table:: Résultats. *-**Moment** - **Size** - **Analytical solution** - **Relative error** * - :math:`t=1` (first load) - |:math: `\ varepsilon_ {zz}` - |:math: `0.0008184509268008657` - |:math: `1\ times 10^ {-14} `% * - :math:`t=2` (second load) - |:math: `\ varepsilon_ {zz}` - |:math: `-0.04738826826926601325` - |:math: `2\ times 10^ {-4} `% * - :math:`t=3` (third load) - |:math: `\ varepsilon_ {zz}` - |:math: `-0.04909595490773837104` - |:math: `2\ times 10^ {-4} `% The :numref:`v7.31.126-reponse_modelisation_A` shows the answers obtained. .. _v7.31.126-reponse_modelisation_A: .. figure:: images/reponse_modelisation_A.svg :align: center :width: 800 Changes in capillary pressure :math:`p_c` and net pressure :math:`p''` with deformation :math:`\varepsilon_{zz}` during the three saturation loadings, isotropic compression and desaturation.