In this paper, the development and application of a new upper bound limit method for two- and three-dimensional (2D and 3D) slope stability problems is presented. Rigid finite elements are used to construct a kinematically admissible velocity field. Kinematically admissible velocity discontinuities are permitted to occur at all inter-element boundaries. The proposed method formulates the slope stability problem as an optimization problem based on the upper bound theorem. The objective function for determination of the minimum value of the factor of safety has a number of unknowns that are subject to a set of linear and nonlinear equality constraints as well as linear inequality constraints. The objective function and constrain equations are...
This paper uses numerical finite element upper and lower bound limit analysis to produce stability c...
An upper bound limit analysis method using rigid finite elements is developed. Rigid finite elements...
Slope stability analysis is a core issue in geotechnical engineering. This paper proposes a method o...
The development and application of a new upper limit method for 2D and 3D slope stability problems a...
The development and application of a new upper limit method for 2D and 3D slope stability problems a...
An upper-bound limit analysis method based on rigid finite elements has been developed recently. Num...
In this paper, the development and application of a new upper bound limit method for two- and three-...
The traditional approach for assessing the stability of slopes is using limit equilibrium methods. R...
In the upper bound approach to limit analysis of slope stability based on the rigid finite element m...
The authors present a numerical limit analysis on the slope stability in this paper using the rigid ...
Abstract: The authors present a numerical limit analysis on the slope stability in this paper using ...
AbstractA finite element software implementing both the upper and the lower-bound theorems of limit ...
A linear failure criterion is widely used in slope stability analyses. However, the strength envelop...
Stability and deformation problems in geotechnical engineering are boundary value problems: differen...
A new method for computing rigorous upper bounds on the limit loads for one-, two- and three-dimensi...
This paper uses numerical finite element upper and lower bound limit analysis to produce stability c...
An upper bound limit analysis method using rigid finite elements is developed. Rigid finite elements...
Slope stability analysis is a core issue in geotechnical engineering. This paper proposes a method o...
The development and application of a new upper limit method for 2D and 3D slope stability problems a...
The development and application of a new upper limit method for 2D and 3D slope stability problems a...
An upper-bound limit analysis method based on rigid finite elements has been developed recently. Num...
In this paper, the development and application of a new upper bound limit method for two- and three-...
The traditional approach for assessing the stability of slopes is using limit equilibrium methods. R...
In the upper bound approach to limit analysis of slope stability based on the rigid finite element m...
The authors present a numerical limit analysis on the slope stability in this paper using the rigid ...
Abstract: The authors present a numerical limit analysis on the slope stability in this paper using ...
AbstractA finite element software implementing both the upper and the lower-bound theorems of limit ...
A linear failure criterion is widely used in slope stability analyses. However, the strength envelop...
Stability and deformation problems in geotechnical engineering are boundary value problems: differen...
A new method for computing rigorous upper bounds on the limit loads for one-, two- and three-dimensi...
This paper uses numerical finite element upper and lower bound limit analysis to produce stability c...
An upper bound limit analysis method using rigid finite elements is developed. Rigid finite elements...
Slope stability analysis is a core issue in geotechnical engineering. This paper proposes a method o...