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
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Bearing Capacity of Cylindrical Caissons in Cohesive-Frictional Soils Using Axisymmetric Finite Element Limit Analysis
TL;DR: In this paper , the authors investigated the use of stability factors for estimating the ultimate bearing pressures on cylindrical caissons in cohesive-frictional soils and reported a comprehensive set of depth factors (F cd, F qd and F γd ) as a function of caisson's embedded depth ratio and soil internal friction angle.
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Seismic bearing capacity of shallow foundations subjected to inclined and eccentric loading using modified pseudo-dynamic method
TL;DR: In this paper , a comprehensive parametric study is conducted to evaluate the seismic bearing capacity of shallow strip foundations overlying dry and cohesionless granular soil under the actions of inclined and eccentric loadings.
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Effect of loading eccentricity on the ultimate lateral resistance of tripod piles in clay
TL;DR: In this paper, the ultimate soil resistance of a tripod rigid pile foundation subjected to eccentric lateral loads was explored, using the finite-element limit analysis coupled with lower bound, and a lower bound was established.
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Effects of seismic force and pore water pressure on stability of 3D unsaturated hillslopes
TL;DR: In this article, a three-dimensional kinematic limit analysis of unsaturated hillslopes is presented, and the results are presented in forms of graphs for a practical range of parameters, indicating the significance in accounting for the influences of 3D constraints, seismic loads and pore water pressures in hillslope stability assessments.
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Undrained stability analysis of trenches for buried submarine pipelines
TL;DR: In this paper, the stability of trenches for buried submarine pipelines (TBSPs) during excavation and/or prior to backfilling has not received enough attention in the literature, and the undrained stab...
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
Book
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.