Introduction. Basic slope stability analysis methods. Location of critical failure surface, convergence and advanced formulations. Finite-element methods for slope stability analysis and comparisons with limit equilibrium analysis. Three-dimensional slope stability analysis. Implementation. Routine assessment of feature and design of landslip preventive measures. Numerical implementation of slope stability analysis methods. Appendix. References. Index.
A number of methods currently exist for the analysis and design of slopes. This book provides a critical review of these and offers more approaches for overcoming numerical non-convergence and the location of critical failure surfaces in two-dimensional and three-dimensional cases. It also addresses new concepts in three-dimensional stability analysis, finite element analysis, and the extension of slope stability problems to lateral earth pressure problems. It offers advice and design resources in the form of recommendations for analysis and design practice, design charts, and tables.
Dr. YM Cheng has an interest in research work in slope stability: unification of 2D methods, location of critical 2D failure surfaces, 3D slope stability analysis, location of critical 3D failure surfaces, development of slope stability software SLOPE2000 and SLOPE3D, unification of lateral earth pressure and slope stability problems, convergence problems in slope stability analysis, field tests of steel, GFRP, CFRP bars and tubes soil nails in Hong Kong, numerical modelling of soil nail pull out tests, finite element analysis of slope stability, and distinct element analysis of slope stability analysis.
Dr. C.K. Lau