Design of Foundations on Sensitive Champlain Clay Subjected to Cyclic Loading
Publication: Journal of Geotechnical and Geoenvironmental Engineering
Volume 134, Issue 7
Abstract
Sensitive clay subjected to cyclic loading may experience gradual loss of its shear strength, which may lead to liquefaction. Foundations built on this clay would suffer extensive settlement and significant loss of bearing capacity or perhaps catastrophic failure. This paper presents an experimental investigation on sensitive (Champlain) clay obtained from the city of Rigaud, Quebec (Canada). Consolidation tests, static and cyclic undrained and drained triaxial tests were performed on representative samples of this clay. The objective of this investigation was to examine the influence of the physical and mechanical parameters, which govern the shear strength of sensitive clay subjected to cyclic loading. Based on the results of the present investigation and those available in the literature, it can be reported herein that the undrained response is the most critical for these foundations; furthermore, the preconsolidation pressure is considered as an important parameter in establishing the shear strength of sensitive clay. A design procedure is developed to determine the safe zone for the undrained and drained responses, within which a combination of the cyclic deviator stress and the number of cycles for a given soil/loading/site conditions can achieve a quasielastic resilient state without reaching failure. The proposed design procedure is applicable to all regions around the world, where sensitive clays can be found. Furthermore, this procedure can be adopted to examine the conditions of existing foundations built on sensitive clay at any time during its lifespan.
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Acknowledgments
The financial support from the Natural Science and Engineering Research Council of Canada (NSERC)NSERC and Concordia University are acknowledged.
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© 2008 ASCE.
History
Received: Sep 11, 2003
Accepted: Aug 14, 2007
Published online: Jul 1, 2008
Published in print: Jul 2008
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