Add to ORKGUsing a combination of a logarithmic spiral and a straight line as a failure surface, comprehensive charts have been developed to determine the passive earth pressure coefficients and the positions of the critical failure surface for positive as well as negative wall friction angles. Translational movement of the wall has been examined in detail, considering the soil as either an associated flow dilatant material or a non-dilatant material, to determine the kinematic admissibility of the limit equilibrium solutions
International audienceThe paper describes a variational approach applied to the limit equilibrium me...
This work treats the physical modeling of failure mechanisms by active earth pressure. T...
Passive earth pressure calculations in geotechnical analysis are usually performed with the aid of t...
A numerical method is developed to evaluate the passive earth pressure coefficients for an inclined ...
International audienceA simple method is proposed for calculating the active and passive earth press...
In this study, a modified logarithmic spiral method is proposed to determine the passive earth press...
: In the presence of pseudo-static seismic forces, passive earth pressure coefficients behind retain...
This paper presents a novel approach to the determination of passive soil pressures: using the upper...
Determination of earth pressures is one of the fundamental tasks in geotechnical engineering. Althou...
The problem of passive earth pressure is one of the important topics in Geotechnical engineering. At...
This paper presents an efficient technique to calculate the passive earth pressure of a cohesionless...
A numerical protocol was developed for the evaluation of the passive earth-pressure coefficients (K-...
A numerical protocol was developed to compute the passive earth pressure coefficients, K-p, for the ...
Seismic passive earth pressure coefficients were computed by the method of limit equilibrium using ...
By taking the failure surface as a combination of the arc of a logarithmic spiral and a straight lin...
International audienceThe paper describes a variational approach applied to the limit equilibrium me...
This work treats the physical modeling of failure mechanisms by active earth pressure. T...
Passive earth pressure calculations in geotechnical analysis are usually performed with the aid of t...
A numerical method is developed to evaluate the passive earth pressure coefficients for an inclined ...
International audienceA simple method is proposed for calculating the active and passive earth press...
In this study, a modified logarithmic spiral method is proposed to determine the passive earth press...
: In the presence of pseudo-static seismic forces, passive earth pressure coefficients behind retain...
This paper presents a novel approach to the determination of passive soil pressures: using the upper...
Determination of earth pressures is one of the fundamental tasks in geotechnical engineering. Althou...
The problem of passive earth pressure is one of the important topics in Geotechnical engineering. At...
This paper presents an efficient technique to calculate the passive earth pressure of a cohesionless...
A numerical protocol was developed for the evaluation of the passive earth-pressure coefficients (K-...
A numerical protocol was developed to compute the passive earth pressure coefficients, K-p, for the ...
Seismic passive earth pressure coefficients were computed by the method of limit equilibrium using ...
By taking the failure surface as a combination of the arc of a logarithmic spiral and a straight lin...
International audienceThe paper describes a variational approach applied to the limit equilibrium me...
This work treats the physical modeling of failure mechanisms by active earth pressure. T...
Passive earth pressure calculations in geotechnical analysis are usually performed with the aid of t...