Meyerhof 1953

Session 4/24 The Bearing Capacity of Foundations under Eccentric and Inclined Loads Capacité portante des sols de fonda

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Citation preview

Session 4/24

The Bearing Capacity of Foundations under Eccentric and Inclined Loads Capacité portante des sols de fondation sous charges excentrées et obliques by G. G. M e y e r h o f , Ph.D., M.Sc. (Eng.), F.G.S., A.M.I.C.E., A.M.I. Struct. E., Building Research Station, Garston, Watford, Herts., England

Summary

Sommaire

The author’s recently published theory o f the bearing capacity o f foundations under a central vertical load is extended to eccentric and inclined loads. First, an analysis is given for eccentric vertical loads on a horizontal foundation and is compared with the results o f laboratory tests on model footings on clay and sand. In the second section the theory is extended to central inclined loads on horizontal and inclined foundations and compared with the results o f some model tests on clay and sand. Finally, it is shown how these methods o f analysis can be combined for foundation loads which are both eccentric and inclined and some test results are presented.

La théorie antérieure de la force portante des fondations sous charge centrale et verticale publiée récemment par l’auteur est éten­ due aux charges excentrées et obliques. Premièrement, une analyse est donnée pour des charges excentrées verticales sur fondations horizontales et elle est comparée avec les résultats d’essais en labora­ toire sur fondations modèles d’argile et de sable. D ans la deuxième section la théorie est étendue aux charges centrales obliques et elle est comparée avec des résultats obtenus avec modèles d’argile et de sable. Enfin il est démontré comment ces méthodes analytiques peu­ vent être combinées pour des charges qui sont à la fois excentrées et obliques et les résultats de quelques d’essais sont présentés à l’appui.

Introduction Foundations are frequently subjected to eccentric and in­ clined loads due to bending moments and horizontal thrusts acting in conjunction with the vertical loading. The bearing capacity theory recently published by the author (Meyerhof,\ 1951) can readily be extended to cover such loading conditions, and the present paper gives an outline of the methods together with the results of some tests with model footings on clay and sand.

Thus for a shallow horizontal strip foundation of width B and depth D carrying a vertical load Q with an eccentricity e on the base (Fig. 1), it may be assumed that the load acts centrally on a foundation of effective contact width B' =

B — 2