Abstract
Bearing capacity of foundations is often determined for saturated state of the soil, regarding its simple and conservative results. This assumption, however, results in very uneconomic and overconservative design for a wide range of climates in the world. In this paper, plasticity equations were employed and extended for unsaturated soils to establish a theoretical approach to investigate the bearing capacity of unsaturated soils. It is achieved by combining the concept of effective stress and plasticity equations in terms of effective stress in unsaturated soils. The advantage of Bishop’s (4) effective stress concept was employed to simplify the equations. The equations were then transformed onto the zero extension lines directions to generalize this method for both associative and non-associative problems by which both stress and velocity field can be determined for unsaturated soils. A computer code was also developed to solve the relatively complex plasticity equations for a wide range of soil friction angles and matric suctions to compute the corresponding bearing capacity factor, N γ , for strip foundations with smooth and rough base. This factor seems to be one of the major contributors in the bearing capacity of shallow foundations. The results have been presented in design charts and theoretical equations.
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Acknowledgments
The authors wish to offer their special thanks to Prof. Arsalan Ghahramani and Prof. Nader Hataf (committee members of this research that is a part of a Ph.D. thesis at Shiraz University) for their great scientific support and helpful comments.
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Jahanandish, M., Habibagahi, G. & Veiskarami, M. Bearing capacity factor, N γ , for unsaturated soils by ZEL method. Acta Geotech. 5, 177–188 (2010). https://doi.org/10.1007/s11440-010-0122-3
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DOI: https://doi.org/10.1007/s11440-010-0122-3