Title of article
Stabilized mixed finite element formulations for materially nonlinear partially saturated two-phase media Original Research Article
Author/Authors
Andrzej Truty، نويسنده , , Thomas Zimmermann، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2005
Pages
30
From page
1517
To page
1546
Abstract
Standard and enhanced (BBAR or EAS) low order finite elements applied to the problem of consolidation of two-phase nonlinear continua do not satisfy the LBB condition when the same interpolation functions are used for both displacement and pore pressure fields. Strong spatial pressure oscillations are the main consequence of the LBB condition violation. The class of direct stabilized methods, widely used in the field of fluid mechanics, is a powerful tool to circumvent violation of the aforementioned condition. Three stabilized formulations, designed for the problem of consolidation of fully or partially saturated media are presented: Galerkin/least-squares (GLS) with the least-squares term construction based on the residuum of the local fluid mass conservation equation; the pressure stabilized formulation (FPL) in which the rate of the pore pressure Laplacian (residual free in the incompressibility limit) is added to the fluid mass conservation equation; and, finally, a stabilized formulation in which the stabilization term is constructed based on the rate of the residuum of the local momentum equation. An h-convergence study and test problems for the three stabilized schemes are discussed.
Keywords
Stabilized finite elements , Partially saturated two-phase media
Journal title
Computer Methods in Applied Mechanics and Engineering
Serial Year
2005
Journal title
Computer Methods in Applied Mechanics and Engineering
Record number
893458
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