The limit equilibrium method is commonly used for slope stability analysis, being relatively simple compared with finite element analysis. Both methods were used to analyse homogeneous and inhomogeneous slopes, taking into account the rapid drawdown condition, the undrained clay soils and the presence of tension cracks. The analyses were carried out using PLAXIS 8.0 (finite element method) and SAS-MCT 4.0 (limit equilibrium approach). The safety factor and location of the critical slip surface obtained from the two methods are compared
Stability and deformation problems in geotechnical engineering are boundary value problems: differen...
Factor of safety is defined as the ratio of total resisting forces to total driving forces along a c...
Slope stability is of great importance in the field of geotechnical engineering. The assessment of s...
This paper uses the finite element upper and lower bound limit analysis to assess the stability of s...
This paper presents results of comparative slope stability analyses conducted by limit equilibrium a...
Slope can be defined as an exposed ground surface that stands at an angle with the horizontal surfac...
A new approach is proposed which uses concepts of both the limit equilibrium method (LEM) and finite...
Traditionally, geotechnical engineers often use limit equilibrium method to find out the factor of s...
This investigation was conducted to determine the applicability of the limit equilibrium methods of ...
A number of powerful numerical models, including limit equilibrium and finite element (FE) methods, ...
Slope stability analyses in practical geotechnical engineering are predominantly performed using lim...
As early as 1930, slope stability had been analyzed by limit equilibrium methods (LEM). Several meth...
Major development is seen in geotechnical aspect of slope stability analyses over the past few decad...
Since 1930, the analysis of slope stability is done according to the limit equilibrium approach. Sev...
In the assessment of slopes, factor of safety values still remain the primary indexes for determinin...
Stability and deformation problems in geotechnical engineering are boundary value problems: differen...
Factor of safety is defined as the ratio of total resisting forces to total driving forces along a c...
Slope stability is of great importance in the field of geotechnical engineering. The assessment of s...
This paper uses the finite element upper and lower bound limit analysis to assess the stability of s...
This paper presents results of comparative slope stability analyses conducted by limit equilibrium a...
Slope can be defined as an exposed ground surface that stands at an angle with the horizontal surfac...
A new approach is proposed which uses concepts of both the limit equilibrium method (LEM) and finite...
Traditionally, geotechnical engineers often use limit equilibrium method to find out the factor of s...
This investigation was conducted to determine the applicability of the limit equilibrium methods of ...
A number of powerful numerical models, including limit equilibrium and finite element (FE) methods, ...
Slope stability analyses in practical geotechnical engineering are predominantly performed using lim...
As early as 1930, slope stability had been analyzed by limit equilibrium methods (LEM). Several meth...
Major development is seen in geotechnical aspect of slope stability analyses over the past few decad...
Since 1930, the analysis of slope stability is done according to the limit equilibrium approach. Sev...
In the assessment of slopes, factor of safety values still remain the primary indexes for determinin...
Stability and deformation problems in geotechnical engineering are boundary value problems: differen...
Factor of safety is defined as the ratio of total resisting forces to total driving forces along a c...
Slope stability is of great importance in the field of geotechnical engineering. The assessment of s...