The response law of far-field seismic ground motion of the Wenchuan earthquake and its damaging mechanism in the Loess Plateau

Xiaowu Pu , Lanming Wang , Ping Wang , Xiufeng Tian , Shiyang Xu , Shaofeng Chai , Haitao Guo
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引用次数: 2

Abstract

A series of housing collapses and other serious damage was caused by the 2008 Wenchuan MS 8.0 earthquake in the seismic intensity Ⅵ areas of the Loess Plateau, which is hundreds of kilometers away from the epicenter, and which showed a remarkable seismic intensity anomaly. The seismic disasters are closely related to the seismic response characteristics of the site, therefore, the systematic study of the far-field seismic response law of the Wenchuan earthquake in the Loess Plateau is of great significance to prevent the far-field disaster of great earthquake. In this paper, the seismic acceleration records of several bedrock stations and loess stations from the seismogenic fault of the Wenchuan earthquake to the Loess Plateau were collected, and the attenuation law of ground motion along the propagation path and the characteristics of seismic response on the loess site are studied, and the mechanism of amplification effect of ground motion is analyzed based on the dynamic feature parameters of the loess site obtained through the HVSR method. Taking a typical loess site of thick deposit as the prototype, a series of shaking table tests of dynamic response of loess site models with different thicknesses were carried out. Amplification effect, spectral characteristics of acceleration in model sites were analyzed under the action of a far-field seismic wave of the Wenchuan earthquake. The results show that seismic attenuation on the propagation path along the NE strike of the seismogenic fault to the Loess Plateau is slower than that in other directions, and the predominant period range of ground motion on bedrock site of the Loess Plateau presents broadband characteristics. Because the natural periods of loess sites with thick deposits are within the predominant period range of bedrock input wave, loess sites appear significant amplification effect of ground motion, the horizontal acceleration of ground motion exceeds 0.1 ​g, the seismic intensity reaches 7°. The thicker the loess deposit is, the more significant the change of spectral characteristics of ground motion on loess sites, and the narrower the predominant period range of ground motion becomes, and the closer it is to the natural period of loess sites. Therefore, for some old houses on thick loess sites, the poor seismic performance and strong seismic response eventually led to their collapses and damages because their natural periods are very close to the predominant period of ground motion of the Wenchuan earthquake on thick loess sites; For these damaged high-rise buildings, the resonance effect might be the main reason for their damages because their natural periods are included in the predominant period range of ground motion of the Wenchuan earthquake on thick loess sites.These research results would provide a basis for seismic disasters prediction and evaluation and seismic design of construction engineering in the Loess Plateau.

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黄土高原汶川地震远场地震动响应规律及其破坏机制
2008年汶川ms8.0级地震在距震中数百公里的黄土高原震级Ⅵ地区发生了一系列房屋倒塌等严重破坏,地震烈度异常显著。地震灾害的发生与场地的地震反应特征密切相关,因此,系统研究黄土高原汶川地震的远场地震反应规律,对预防大地震远场灾害具有重要意义。本文收集了汶川地震发震断层至黄土高原的几个基岩站和黄土站的地震加速度记录,研究了地震动沿传播路径的衰减规律和黄土场地的地震反应特征,并基于HVSR法获得的黄土场地动力特征参数,分析了地震动放大效应的机理。以某典型厚沉积黄土场地为原型,进行了不同厚度黄土场地模型动力响应的振动台试验。分析了汶川地震远场地震波作用下模型站点加速度的放大效应和频谱特征。结果表明:沿发震断层NE向向黄土高原传播路径上的地震衰减较其他方向慢,黄土高原基岩部位地面运动的主导周期范围呈现宽频带特征;由于厚沉积黄土场地的自然周期处于基岩输入波的优势周期范围内,故地表运动出现明显的放大效应,地表运动水平加速度超过0.1 g,地震烈度达到7°。黄土越厚,地表运动的频谱特征变化越显著,地表运动的优势周期范围越窄,与黄土的自然周期越接近。因此,对于一些厚黄土旧房,由于其自然周期与汶川地震在厚黄土旧房地震动的主导周期非常接近,其抗震性能差,地震反应强,最终导致其倒塌和破坏;对于这些受损高层建筑而言,共振效应可能是其破坏的主要原因,因为它们的自然周期包含在汶川地震厚黄土地震动的优势周期范围内。研究成果可为黄土高原地震灾害预测评价和建设工程抗震设计提供依据。
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