In this paper, the effect of bedrock inclination on seismic performance of slopes is investigated. The study was conducted based
on dynamic analysis of different slopes, evaluation of the earthquake acceleration in sliding mass, and calculating the
permanent displacement of the slope, using Newmark sliding block. The investigation indicates that variation of the bedrock
inclination may cause the acceleration magnitude and the displacement in the sliding mass to reach to their maximum level.
This may happen in conditions that the mean period of the acceleration time history on failure surface (Tmt) and the
predominant period of the slope (Ts ) are close to each other. Typical results are presented and discussed. A two dimensional
model of a typical slope was considered and conducting dynamic analyses, the slope performance was studied for different
geometries, strength parameters and shear wave velocities. Such a performance has been studied by assessing the record of
acceleration in sliding mass (the mass above the critical sliding surface) and calculating the slope displacement using Newmark
method. It is shown that neglecting the effect of bedrock inclination, would lead to non-real results in assessing the seismic slope
performance.
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