Title of article
Electro-chemo-mechanical couplings in saturated porous media: elastic–plastic behaviour of heteroionic expansive clays
Author/Authors
Aless، نويسنده , , ro Gajo ، نويسنده , , Benjamin Loret، نويسنده , , Tomasz Hueckel، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2002
Pages
36
From page
4327
To page
4362
Abstract
Chemically active saturated clays containing several cations are considered in a two-phase framework. The solid
phase contains the negatively charged clay particles, absorbed water and ions. The fluid phase, or pore water, contains
free water and ions. Electroneutrality is ensured in both phases, which gives rise to electrical fields. Water and ions can
transfer between the two phases. In addition, a part of free water diffuses through the porous medium. A global understanding
of all phenomena, deformation, transfer, diffusion and electroneutrality, is provided. Emphasis is laid on
the electro-chemo-mechanical constitutive equations in an elastic–plastic setting. Elastic chemo-mechanical coupling is
introduced through a potential, in such a way that the tangent elastic stiffness is symmetric. Material parameters needed
to estimate the coupling are calibrated from specific experiments available in the recent literature. The elastic–plastic
behaviour aims at reproducing qualitatively and quantitatively typical experimental phenomena observed on natural
clays during chemical and mixed chemo-mechanical loadings, including chemical consolidation and swelling already
described in Int. J. Solids Structures (39 (10), 2773–2806) in the simpler context of Na-Montmorillonite clays. Crucially,
the successive exposure of a clay to pore solutions with chemical content dominated by a cation already present in the
clay or quasi-absent leads to dramatically different volume changes, in agreement with experimental data
Keywords
Porous media , clays , Elastic–plastic
Journal title
International Journal of Solids and Structures
Serial Year
2002
Journal title
International Journal of Solids and Structures
Record number
447932
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