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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Analysis of Slope Stability and Software Development Based on Single-Grid and Two-Grid Finite Element Methods
Xi Chen,Jun Ren,Jiankun Liu +2 more
TL;DR: In this article, a flowchart of decision tree on selecting single-grid or two-grid search scheme is proposed for the shear strength reduction finite element method of slope stability analysis.
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Advances in the solution of geotechnical boundary-value problems
Rodrigo Salgado,Vibhav Bisht +1 more
TL;DR: In this paper, the results of analyses performed to demonstrate the usefulness of constitutive model integration, limit analysis, and large deformation analyses have been instrumental in the development of strategies for the solution of the boundary-value problems of geomechanics.
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Influence of copula approaches on reliability analysis of slope stability using random adaptive finite element limit analysis
Thanh Son Nguyen,Suched Likitlersuang,Weeradetch Tanapalungkorn,T N Phan,Suraparb Keawsawasvong +4 more
TL;DR: In this article , the effects of copula selection on slope stability and reliability analyses were explored. But the results showed that considerably different slope failure probabilities are produced by different copula approaches, and that failure probabilities reduce for simulating multiple dependency structures.
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Seismic Slope Stability Evaluation Considering Rock Mass Disturbance Varying in the Slope
TL;DR: In this paper, a finite element lower bound limit analysis method was adopted to study the seismic stability of disturbed rock slopes considering inhomogeneity caused by rock mass disturbance, and the recommended blasting damage zones were also investigated.
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C3 Soil slope stabilization
TL;DR: In this article, the authors focus on techniques of soil slope stability analysis and stabilization and provide selected case studies to illustrate some of the approaches commonly adopted, and make a distinction between the materials forming the slope under consideration behave primarily as soil or rock.
References
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