Abstract
In the current paper, the consolidation settlement of a strip footing over a finite layer of saturated soil has been studied using the finite element method. In Biot’s coupled consolidation equations, the soil deformation and excess pore pressure are determined simultaneously in every time step which refers to the hydro-mechanical coupling. By considering a constant total stress throughout the time and by assuming that volume strain is a function of isotropic effective stress, uncoupled consolidation equations can be obtained using coupled consolidation equations. In these uncoupled equations, excess pore pressure and deformation are determined separately. In this approach, the excess pore pressure can be identified in the first stage. Using the calculated excess pore pressure, the soil deformation is determined through effective stress-strain analyses. A computer code was developed based on coupled and uncoupled equations that are capable of performing consolidation analyses. To verify the accuracy of these analyses, the obtained results have been compared with the precise solution of Terzaghi’s one-dimensional consolidation theory. The capability of these two approaches in estimation of pore water pressure and settlement and to show Mandel-Crayer’s effect in soil consolidation is discussed. Then, the necessity of utilizing coupled analyses for evaluating soil consolidation analysis was investigated by comparing the coupled and uncoupled analyses results.
Highlights
Consolidation of a saturated porous medium is a critical problem in geotechnical engineering
In Biot’s consolidation analysis, in contrast to Terzaghi’s solution and uncoupled consolidation theory, the excess pore pressure may increase to its peak in the early stages of the consolidation process, depending on boundary conditions
Since consolidation equations are involved with special complexity, analytical solution of these equations is only possible for simple cases while the application of numerical method seems to be inevitable for complex problems
Summary
Consolidation of a saturated porous medium is a critical problem in geotechnical engineering. In Biot’s consolidation analysis, in contrast to Terzaghi’s solution and uncoupled consolidation theory, the excess pore pressure may increase to its peak in the early stages of the consolidation process, depending on boundary conditions This issue was first mentioned theoretically in the consolidation study of a rectangular prism of soil mass in the plane-strain condition by Mandel in 1953 and in the study of a spherical clay model by Crayer in 1963 [2]. The current work presents a finite element approach to solve the consolidation problems using couple and uncouple equations In this approach, a saturated and elastic porous medium in plane-strain condition is considered. Conducting both coupled and uncoupled consolidation analyses through the developed program, we compared the obtained results to demonstrate the effectiveness and accuracy of the proposed approach
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