Geotechnical stability analysis
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In this paper, the authors describe recent advances in stability analysis that combine the limit theorems of classical plasticity with finite elements to give rigorous upper and lower bounds on the failure load.Abstract:
This paper describes recent advances in stability analysis that combine the limit theorems of classical plasticity with finite elements to give rigorous upper and lower bounds on the failure load. These methods, known as finite-element limit analysis, do not require assumptions to be made about the mode of failure, and use only simple strength parameters that are familiar to geotechnical engineers. The bounding properties of the solutions are invaluable in practice, and enable accurate limit loads to be obtained through the use of an exact error estimate and automatic adaptive meshing procedures. The methods are very general, and can deal with heterogeneous soil profiles, anisotropic strength characteristics, fissured soils, discontinuities, complicated boundary conditions, and complex loading in both two and three dimensions. A new development, which incorporates pore water pressures in finite-element limit analysis, is also described. Following a brief outline of the new techniques, stability solutions ...read more
Citations
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A two-grid search scheme for large-scale 3-D finite element analyses of slope stability
TL;DR: In this article, a generalised bisection search algorithm is proposed to reduce the possibility of encountering non-convergence from a statistical point of view, and a new two-grid scheme, characterised by a coarse mesh search and followed by a fine mesh search, is developed.
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Design equation for stability of a circular tunnel in anisotropic and heterogeneous clay
TL;DR: In this article , the effects of undrained strength anisotropy and strength nonhomogeneity on the stability of unlined circular tunnels in clays are investigated using finite element and second-order cone programming.
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Influence of soil spatial variability on the response of strip footing on geocell-reinforced slope
TL;DR: In this article, the authors investigated the influences of spatial variability and randomness of the soil strength parameters on the load-settlement response of a strip footing placed on a geocell-reinforced soil slope by combining finite difference method with random field model.
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A statistics-based discrete element modeling method coupled with the strength reduction method for the stability analysis of jointed rock slopes
TL;DR: In this article, a displacement-statistics-based discrete element modeling method (DSDM) is proposed to analyze the stability of jointed rock slopes by coupling with the shear strength reduction method (SRM).
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Undrained stability of rectangular tunnels where shear strength increases linearly with depth
TL;DR: In this paper, the stability of a plane strain rectangular tunnel under undrained conditions was investigated, where the shear strength profile increases linearly with depth and the stability was shown to increase with the depth.
References
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A simplex method for function minimization
John A. Nelder,R. Mead +1 more
TL;DR: A method is described for the minimization of a function of n variables, which depends on the comparison of function values at the (n 41) vertices of a general simplex, followed by the replacement of the vertex with the highest value by another point.
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An efficient method for finding the minimum of a function of several variables without calculating derivatives
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Free and moving boundary problems
TL;DR: In this paper, a front-tracking method is used to solve moving boundary problems and an analytical solution of seepage problems is proposed. But this method is not suitable for solving free boundary problems.