The effect of horizontal earthquake body forces on the bearing capacity of foundations has been examined computationally in a rigorous manner by employing the method of stress characteristics. The bearing capacity factors N-c, N-q and N-y, due to the components of soil cohesion, ground surcharge pressure and soil unit weight respectively, have been plotted as a function of earthquake acceleration coefficient (a(h)) for different values of soil friction angle (phi). The inclusion of earthquake body forces causes a considerable reduction in the bearing capacity factors. The bearing capacity factors N-c and N-q are seen to be approximately of the same magnitude as those reported in the literature on the basis of different solution methods. How...
The assessment of the ultimate bearing capacity of foundations adjacent to slopes is complex as it i...
In this paper, the results of an experimental investigation on the response of model shallow footing...
When we build buildings we often encounter shallow foundations because it is more economical and eas...
The effect of horizontal earthquake body forces on the bearing capacity of foundations has been exam...
By applying the lower bound theorem of limit analysis in conjunction with finite elements and nonlin...
For foundations placed on horizontal ground surfaces, incorporating the effects of earthquake body f...
The aim of this paper is to study the effect of lateral and seismic loading on the width of shallow ...
By using the lower-bound theorem of the limit analysis in conjunction with finite elements and nonli...
The seismic bearing capacity factors for shallow strip footings embedded in sloping ground with gene...
Seismic loading reduces the bearing capacity of soils and large settlement can occur. These effects ...
Past earthquakes provided evidence of the susceptibility of shallow foundations to undergo large def...
In this paper, the bearing capacity of strip footings on rock masses has been studied in the seismic...
AbstractFoundations resting adjacent to the crest of a slope exhibit a smaller bearing capacity resp...
It is usual to adopt the seismic force acting as an additional body force, employing the pseudo-stat...
The use of geosynthetic reinforcement to enhance the ultimate load-bearing capacity and reduce the a...
The assessment of the ultimate bearing capacity of foundations adjacent to slopes is complex as it i...
In this paper, the results of an experimental investigation on the response of model shallow footing...
When we build buildings we often encounter shallow foundations because it is more economical and eas...
The effect of horizontal earthquake body forces on the bearing capacity of foundations has been exam...
By applying the lower bound theorem of limit analysis in conjunction with finite elements and nonlin...
For foundations placed on horizontal ground surfaces, incorporating the effects of earthquake body f...
The aim of this paper is to study the effect of lateral and seismic loading on the width of shallow ...
By using the lower-bound theorem of the limit analysis in conjunction with finite elements and nonli...
The seismic bearing capacity factors for shallow strip footings embedded in sloping ground with gene...
Seismic loading reduces the bearing capacity of soils and large settlement can occur. These effects ...
Past earthquakes provided evidence of the susceptibility of shallow foundations to undergo large def...
In this paper, the bearing capacity of strip footings on rock masses has been studied in the seismic...
AbstractFoundations resting adjacent to the crest of a slope exhibit a smaller bearing capacity resp...
It is usual to adopt the seismic force acting as an additional body force, employing the pseudo-stat...
The use of geosynthetic reinforcement to enhance the ultimate load-bearing capacity and reduce the a...
The assessment of the ultimate bearing capacity of foundations adjacent to slopes is complex as it i...
In this paper, the results of an experimental investigation on the response of model shallow footing...
When we build buildings we often encounter shallow foundations because it is more economical and eas...