Effects of Near-Fault Pulses on Nonlinear Soil-Structure Systems |
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Authors: | Hamid Masaeli Ramin Ziaei Faramarz Khoshnoudian |
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Institution: | 1. Faculty of Civil Engineering, University of Ayatollah Borujerdi, Borujerd, Irankhoshnud@aut.ac.ir;3. School of Civil Engineering, Amirkabir University of Technology (Tehran Polytechnic), Tehran, Iran |
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Abstract: | ABSTRACTThis paper is focused on effects of near-fault pulse characteristics on seismic performance of soil-structure systems considering foundation uplifting and soil yielding. To this end, an extensive parametric study is conducted. Mid-to-high-rise buildings of different aspect ratios (SR) resting on shallow mat foundations are investigated. Different vertical load-bearing safety factors (FS) of foundation as well as different soil types (i.e. soft to very dense) are considered in this study. Finite element method is used for numerical modeling. The underlying soil is simply modeled with a set of nonlinear springs and dashpots beneath the foundation. Mathematical near-fault pulse models of fling step and forward directivity are used as input ground motions. The results show that reduction in structural drift demands due to nonlinear soil-structure interaction (SSI) is more considerable in the case of short-period pulses compared to long-period ones. In more precise words, significant reduction occurs when pulse-to-fixed-base period ratio falls within 0.7–1.5 in the case of directivity pulses and 0.5–1.4 in the case of fling pulses. It is also demonstrated that the beneficial effects of nonlinear SSI reduce when the number of stories increases. |
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Keywords: | Nonlinear Soil-Structure Interaction Near-Fault Pulse Forward Directivity Fling Step Uplifting |
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