关键词: 有限单元法, 自适应差分进化算法, 边坡三维稳定性分析, 临界滑裂面搜索, 扩展椭球面

Abstract: The determination of three-dimensional (3D) critical slip surface and its associated factor of safety (FoS) of slopes are essential to their stability analysis. However, it is difficult to obtain 3D slip surface conveniently and reliably by using existing analytical methods. In this paper, the FoS of slopes is calculated based on the stresses from the finite element method (FEM). A new method is developed to search 3D critical slip surface of slope by constructing an extended ellipsoidal slip surface and adopting self-adaptive differential evolution (SaDE) algorithm in combination with the opposite-movement scheme. The extended ellipsoidal slip surface is easy to construct and flexible to search, and meanwhile it is more coincident with the actuals than spherical and ellipsoidal slip surface. In addition, the whole calculating process is explicit without the convergence problem. The application of the developed method is verified by re-analyzing benchmark slope stability examples from the literature. The results obtained in examples prove the SaDE algorithm has high efficiency and global optimization ability, which are also in good agreement with limit equilibrium and strength reduction methods. It is also demonstrated that this method is suitable to be applied in stability analysis of slopes under complex lithology and environmental conditions by analyzing actual engineering slopes.

Key words: finite element method, self-adaptive differential evolution algorithm, three-dimensional slope stability analysis, search for critical slip surface, extended ellipsoidal surface