沙特阿拉伯Bahrah地震动加速和放大的局部场址效应。

F. Rehman, A. Alamri, S. El-Hady, Hussein M. Harbi, M. F. Ullah, Saif-ur- Rehman
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引用次数: 0

摘要

地震时现场土壤条件的变化对地面运动有很大的影响。灾害性地震表明,局部场地条件是影响地表运动的重要因素。本研究评估了Bahrah地区地震动加速和放大的局部场地效应。该镇位于被第四纪冲积河沉积物覆盖的地区。利用光谱匹配技术获得了地面运动时间序列。基于PSHA和解聚过程的结果生成匹配良好的地震动时间序列。利用地面运动时间序列和浅层地球物理资料进行一维模拟,对土层进行等效线性地震反应分析。将一维场地响应分析的结果内插到475年回归期的选定光谱周期(PGA、0.1、0.2和2)中,生成地表运动加速度和土壤顶部放大的地图。地图显示的是地面震动,而不是建筑物受损的可能性。放大的最大值可达3.46,加速度可达0.86 g。基岩地形起伏和深部软质沉积物的存在对研究区的结果有较大的反映。地面地动图显示,巴拉地区地震危险性为中等。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Local Site effects for ground motion acceleration and amplification at Bahrah, Saudi Arabia.
The soil conditions variability at site strongly influence ground motions during earthquakes. The disastrous earthquakes have shown that the local site conditions are the essential factors that impact lsurficial ground motions. In present study, local site effects are evaluated for ground motion acceleration and amplification at Bahrah. The town is situated on which is covered by quaternary alluvial wadi deposits. The ground motion time series are obtained through Spectral matching technique. is utilized to generate well matched ground motion time series based on the results of the PSHA and the deaggregation process. The ground motion time series and shallow Geophysical data are utilized to carry out One-dimensional simulation is carried out for equivalent linear seismic response analyses for soil layers. Results of One-dimensional site response analysis are interpolated to generate maps that account for ground motion accelerations and amplifications at top of the soil for selected spectral periods (PGA, 0.1, 0.2 and 2) for 475 years return period. The maps show the ground shaking rather than the probability of damage to buildings. The maximum values of amplification ranges upto 3.46 and acceleration upto 0.86 g. The undulation of bed rock topography and existence of deep soft sediments are reflected considerably on the results of the study area. The surface ground motion maps show that the seismic hazard level in Bahrah is moderate.
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来源期刊
Kuwait Journal of Science & Engineering
Kuwait Journal of Science & Engineering MULTIDISCIPLINARY SCIENCES-
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