Evaluation of Bearing Capacity on Geosynthetic-Reinforced Soil Structures Considering Multiple Failure Mechanisms
Publication: Journal of Geotechnical and Geoenvironmental Engineering
Volume 145, Issue 9
Abstract
This study proposes a limit equilibrium approach to estimating the bearing capacity of strip footings placed on geosynthetic-reinforced soil structures (GRSSs). To assess the multiple mechanisms that may govern the ultimate resistance sustained by GRSSs, logarithmic-spiral, two-part wedge, two-sided general shear, one-sided general shear, and failure above the uppermost geosynthetic layer are proposed. Each of these mechanisms is assessed considering geometry, geotechnical properties, and geosynthetic rupture, whereupon an algorithm selects the minimum, critical bearing capacity and associated failure mechanism for design. Additionally, the effects of foundations placed near the transition between reinforced and unreinforced soil are evaluated. Considering these factors, both the failure mechanism and bearing capacity attained from this analysis are compared with rigorous numerical models, demonstrating agreement. The multimechanism approach is then extended to assess bearing capacity considering various geometric configurations and material properties. Finally, a set of dimensionless charts are presented for convenient assessment of the ultimate bearing capacity of strip footings placed on GRSSs.
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Acknowledgments
The primary author would like to acknowledge the Geosynthetics Institute (GSI) for partial support of this work. Furthermore, he would like to honor Jerry Yamumuro, who kindly bequeathed a fellowship program that partially supported the first author during this work.
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©2019 American Society of Civil Engineers.
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Received: Mar 12, 2018
Accepted: Jan 16, 2019
Published online: Jun 26, 2019
Published in print: Sep 1, 2019
Discussion open until: Nov 26, 2019
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