Calculation of Static Lateral Thrust and Its Application Point on Rigid Retaining Walls in Layered Backfill

Document Type : پژوهشی

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Abstract

In this paper, based on soil plasticity and pseudo-static methods, necessary equations have been derived for determination of total active thrusts due to layered backfill on rigid retaining walls using limit equilibrium approach. For this purpose, the reaction force applied on the failed wedge due to granular backfill has been determined using Kotter’s equations. The total lateral thrust and the angle of the failed wedge in the backfill with the horizontal direction has also been computed for both active and passive conditions. In addition, heights of application points of these thrusts have been calculated and compared with those obtained from earlier research work. Moreover, the method has been expanded for layered backfill. The results show that the total resultant thrust obtained from this study is well in accordance with the Coulomb method. In addition, it has been shown that the point of application of the resultant thrust depends on the backfill layering and backfill properties. Moreover, the developed method has shown that for retaining walls rotating sufficiently about their toes, overturning moments computed from the Coulomb method are on the safe side.

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References

1. Caquot, A., Kerisel, F, "Tables for the Calculation of Passive Pressure, Active Pressure and Bearing Capacity of Foundations", Gauthier-Villars, Paris, ( 1948)
2. Dubrova, G. A., "Interaction of soil and structures", Izd. Rechnoy Transport, Moscow, [Mentioned in Harr], (2007).
3. Sokolovskii, V.V, Statics of Granular Media. Pergamon Press, New York, (1965)
4. Zarrabi-Kashani, K., "Sliding of gravity retaining wall during earthquake: Considering vertical acceleration and changing inclination of failure surface", MS thesis, Department of Civil Engineering, Massachusetts Institute of Technology, Cambridge, Massachusetts, (1979).
5. Greco V. R., "Active earth thrust on cantilever walls in general conditions", Soils and Foundations, Vol.39, NO.6, 65-78. (1999)
6. Janssen, H. A., Versucheubergetreidedruck in silozellen. Zeitschrift, Verein Deutscher Ingenieure 39, 1045–1049, (partial English translation in Proc. Inst. Civ. Engrs, )1986.(
7. Spangler, M. G. and Handy, R. L., "Soil engineering", NewYork; Harper & Row, (1984).
8. Wang, Y.Z., "Distribution of earth pressure on a retaining wall", Ge´otechnique, Vol. 50, No. 1, pp. 83–88, (2000).
9. Shahgholi, M., Fakher, A., Jones, C. J. F. P., "Horizontal slice method of analysis", Geotechnique 51 (10), pp.881–885, (2001).
10. Ahmadabadi, M. and Ghanbari, A., "New procedure for active earth pressure calculation in retaining walls with reinforced cohesive-frictional backfill", Geotextiles and Geomembranes, No. 27, pp. 456-463, (2009).
11. Matsuo, M., Kenmochi, S., Yagi, H., "Experimental study on earthpressure of retaining wall by field test", Soil Mechanics and Foundation Eng, Vol. 18, No. 3, pp. 27-41, (1978).
12. Sherif, M. A., Ishibashi, I., and Lee, C. D., "Earth pressure against rigid retaining walls", Journal of Geotechnical Engineering, ASCE, Vol. 108(GT5), pp. 679-693, (1982).
13. Sherif, M. A., and Fang, Y. S., "Ka and Ko behind rotating and non-yielding walls", Journal of Geotechnical Engineering, ASCE, Vol. 110, No. 1, 41-56, (1984).
14. Kötter, F., "Die Bestimmung des Drucks an gekru¨mmten Gleitfla¨chen, eine Aufgabeaus der Lehrevom Erddruck", Sitzungsberichte der Akademieder Wissenschaften, Berlin, pp. 229–233, (1903).
15. Tsagareli, Z. V, "Experimental investigation of the pressure of a loose medium on retaining walls with a vertical back faceand horizontal backfill surface", J. Soil Mech. Found. Eng, ASCE 91, No. 4, pp. 197–200, (1965).
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Ferdowsi Civil Engineering
Volume 25, Issue 2 - Serial Number 2
November 2014
Pages 135-146

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