Computational Geomechanics. Manuel Pastor

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Computational Geomechanics - Manuel Pastor


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target="_blank" rel="nofollow" href="#fb3_img_img_0e22e25d-13e6-50af-9021-1df13bc75557.png" alt="StartFraction p Subscript s Baseline Over theta Subscript s Baseline EndFraction minus left-parenthesis StartFraction upper S Subscript a Baseline p Subscript a Baseline Over theta Subscript a Baseline EndFraction plus StartFraction upper S Subscript w Baseline p Subscript w Baseline Over theta Subscript w Baseline EndFraction right-parenthesis equals k overbar ModifyingAbove epsilon With ampersand c period dotab semicolon Subscript italic i i"/>

      which considering thermodynamic equilibrium conditions or nonequilibrium conditions but incompressible solid grains reduces to

      Coussy (1995) obtains under the assumption of a simpler form of the functional dependence of the Helmholtz free energy of the solid phase As = As(εij, θs, Sw) as above:

      A previously commonly used form of a stress tensor in partially saturated soil mechanics is the net stress, introduced by Fredlund and Morgenstern (1977). The net stress is defined as the difference between the total stress and the air pressure (no assumption is needed for the grain compressibility)

      (2.53)bold sigma prime equals bold sigma plus bold m p Superscript a

      Its success is due to a great part to experimental reasons: in many problems, the air pressure may be considered constant and equal to the atmospheric pressure and in laboratory experiments, it is preferable to vary water pressure. However, it has to be made clear that the choice of the stress variables in constitutive modeling is a different problem from the choice of controlling variables in the experimental investigation (Jommi 2000). The transformation of the experimentally measured quantities is straightforward from the net stress to the form (2.51), see (Bolzon and Schrefler 1995).

      Its drawback lies in the fact that in the presence of saturated and unsaturated states, the stress tensor changes between the two states; when the pore air is absent, the constitutive equations for saturated states cannot be recovered from those for unsaturated states without additional control (Sheng et al. 2004). This precludes practically its application in soil dynamics; capturing liquefaction becomes a problem.

      The compressibility of the solid grains was also considered by Khalili et al. (2000) in their stress tensor

      (2.54)bold sigma equals bold sigma prime minus a 1 bold m p Superscript g Baseline minus a 2 bold m p Superscript w

      where a1, a2 are the effective stress parameters defined as a italic 1 equals StartFraction c Subscript m Baseline Over c EndFraction minus StartFraction c Subscript s Baseline Over c EndFraction, a 2 equals 1 minus StartFraction c Subscript m Baseline Over c EndFraction, cs is the grain compressibility, c the drained compressibility of the soil structure, and cm the tangent compressibility of the soil structure with respect to a change in capillary pressure.

      In the following, we make use of (2.51) with the assumption that solid grains are incompressible, i.e. α = 1. The governing equations are derived again, using the hybrid mixture theory, as has been done by Schrefler (1995) and Lewis and Schrefler (1998). Isothermal conditions are assumed to hold, as throughout this book. For the full non‐isothermal case, the interested reader is referred to Lewis and Schrefler (1998) and Schrefler (2002).

      We first recall briefly the kinematics of the system.

      2.5.1 Kinematic Equations

      As indicated in Chapter 1, a multiphase medium can be described as the superposition of all π phases, π = 1, 2, , κ, i.e. in the current configuration, each spatial point x is simultaneously occupied by material points Xπ of all phases. The state of motion of each phase is however described independently.

      In a Lagrangian or material description of motion, the position of each material point xπ at time t is a function of its placement in a chosen reference


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