Abstract

Liquefaction-induced lateral spreading of the foundation soil severely damages the embankment resting on it. Installation of sheet pile near the toe of the embankment is a widely used technique to mitigate lateral spreading of the foundation soil and the associated damage to the embankment. However, several factors, such as the thickness of the liquefiable foundation, width of sheet pile, and softening of the bearing stratum, that may affect the performance of the sheet pile as seismic retrofit against lateral spreading has not been well studied yet. Therefore, a series of dynamic centrifuge experiments are carried out to study the applicability of sheet pile in various thickness of liquefiable foundation under moderate to strong sequential ground motions. It is found that the sheet pile effectively mitigates the lateral spreading of a thin as well as thick liquefiable foundation. Besides, the sheet pile having the same width of the target area performs equally as a wider sheet pile in mitigating channel-ward ground movement. The experimental results also show that the liquefaction-induced softening of the dense bearing stratum immediately below the loose foundation significantly influences the performance of the sheet pile.

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