Analysis of kinematic seismic response of tapered piles |
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Authors: | Mahmoud Ghazavi |
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Affiliation: | (1) Department of Civil Engineering, K.N. Toosi University of Technology, Tehran, Iran;(2) Formerly: Civil Engineering Department, Isfahan University of Technology, Isfahan, Iran |
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Abstract: | In the present work, a two-phase analysis is used to assess the lateral movement of a tapered pile due to kinematic seismic loading resulted from earthquakes. First, the free-field horizontal displacement of the ground due to earthquake is estimated using available theory of wave propagation. Second, these estimated soil movements are imposed on the taper pile in a closed-form solution to compute the pile response. The governing differential equation for an arbitrary pile segment is obtained, which includes the free-field horizontal movement estimated from the first phase. The equation is solved explicitly to obtain the horizontal deflection. Parametric studies show that tapered piles tend to be more flexible than uniform piles of the same volume and length under earthquake loading, which is soundly interesting. |
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Keywords: | Piled foundations Tapered piles Seismic excitation Harmonic shear waves Wave propagation |
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