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Simulation of spatially variable seismic underground motions in U-shaped Canyon
作者: Liu-Guohuan, Feng xiao, Lian jijian
 

 

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Simulation of spatially variable seismic underground motions in  U- shaped Canyon 
2019,23(3):463-486, Journal of Earthquake Engineering   www.liuguohuan.com     科研团队与课题研究招收与招聘
 
Abstract: This paper focuses on the study of simulations for spatially variable seismic underground motions in U-shaped canyons. First, a canyon ground cross-coherence function based on commonly used coherence function models of flat terrain, is deduced and presented. To further obtain the underground cross-coherence function, a mathematical expression, including its specific deduction process for describing the relationship between coherence functions of multi-support ground and underground motions, is also given in detail and adopted. Then, the key factors (i.e. canyon underground power spectrum density and canyon underground coherence function) for simulating the spatially variable seismic underground motions are obtained by a two-step transferring method from flat-ground to underground soil. Furthermore, a program is coded for generating the spatially variable seismic underground motions. The effectiveness of the generated seismic motions is further verified. Finally, two numerical examples are taken to validate the proposed simulation approach, illustrating the specific characteristics of canyon coherence function. The analysis results show the apparent differences of the simulated seismic motions using the canyon coherence function from those using conventional coherence function models of flat terrain. The proposed approach provides some insights for anti-earthquake analysis of soilstructure interaction or underground structures in canyon topography.
Key words: Canyon Coherence Function; Seismic Motions Simulation; Spatially Variable Seismic Underground Motions; Topography Effect; U-Shaped Canyon
CLC number: TU375.1               Document code: A
 
 
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