Centrifugal and Numerical Modeling of a Reinforced Lime-Stabilized Soil Embankment on Soft Clay with Wick Drains
Publication: International Journal of Geomechanics
Volume 11, Issue 3
Abstract
A centrifuge test was performed on a reinforced embankment backfilled with lime-stabilized soil on soft clay installed with wick drains. The finite-element program PLAXIS was employed to simulate the centrifuge test on the basis of the test dimensions. Verifications of the numerical model were taken by comparing the numerical results with the measurements obtained from the centrifuge test, and it was found that both were in good agreement. Three cases of unreinforced, one-layer reinforced, and two-layer reinforced embankments were simulated and compared on the basis of the numerical model. A centrifuge similarity drainage relationship was also proposed in this paper on the basis of the equal degree of consolidation between the model and prototype drains.
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Acknowledgments
The supports from the Natural Science Foundation of China under Grant No. NNSFC50508030 and No. NNSFC41072200 and from Shanghai Leading Academic Discipline Project under Grant No. UNSPECIFIEDB308 are gratefully acknowledged. The authors are grateful for the valuable help and discussions with Dr. Jie Han at the University of Kansas. The first author would also like to thank the China Scholarship Council for supporting his visit at the University of Kansas as a visiting scholar. All the support is greatly appreciated.
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© 2011 American Society of Civil Engineers.
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Received: Oct 31, 2009
Accepted: Oct 21, 2010
Published online: May 16, 2011
Published in print: Jun 1, 2011
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