用于场地特征描述的单站微震颤测量:土耳其东部埃尔祖鲁姆市案例研究

IF 2.6 2区 工程技术 Q2 ENGINEERING, CIVIL
Fatih Karsli, Erdem Bayrak
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引用次数: 0

摘要

单站微震颤法是用于确定动态土壤特性的最快速、最可靠和最经济的方法之一。本研究利用 49 个单站微震颤测量来确定埃尔祖鲁姆雅库提耶区希拉肯特区的动态土壤特性。使用中村水平/垂直光谱比(H/V)方法计算了土壤主频和放大系数。土壤主频值在 0.4 赫兹到 10 赫兹之间变化,土壤放大系数在 1 到 10 之间变化。频率值越低,H/V 值越高。易损性指数(Kg)和剪切应变参数用于估算地震可能造成的破坏。特别是在研究区域的西侧,观测到了较高的 Kg 值。以 0.25 g、0.50 g 和 0.75 g 的基岩加速度绘制了剪切应变图,并确定了在地震中失去弹性的土壤类型。计算了前 30 米的平均剪切波速度(Vs30)。最后观察到,研究区西部的地震周期较长,H/V 值较高,Kg 值较高,Vs30 值较低,因此在地震中受损的风险较高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Single-station microtremor surveys for site characterization: A case study in Erzurum city, eastern Turkey

The single-station microtremor method is one of the fastest, most reliable, and cheapest methods used to identify dynamic soil properties. This study utilizes 49 single-station microtremor measurements to identify the dynamic soil properties of the Hilalkent quarter of the Yakutiye district in Erzurum. Soil dominant frequency and the amplification factor were calculated by using the Nakamura horizontal/vertical spectral ratio (H/V) method. While the soil dominant frequency values varied between 0.4 Hz and 10 Hz, the soil amplification factor changed between 1 and 10. Higher H/V values were acquired with lower frequency values. The vulnerability index (Kg) and shear strain parameters that are utilized to estimate the damage that may be caused by an earthquake were mapped. Especially in the west side of the study area, higher Kg values were observed. The shear strain map was created with 0.25 g, 0.50 g and 0.75 g bedrock accelerations, and soil types that lost elasticity during an earthquake were identified. The average shear wave velocity for the first 30 m (Vs30) was calculated. Finally, it was observed that the western part of the study area, which resulted in a higher period and higher H/V, higher Kg and lower Vs30 values, presents a higher risk of damage during an earthquake.

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来源期刊
CiteScore
4.70
自引率
21.40%
发文量
1057
审稿时长
9 months
期刊介绍: Earthquake Engineering and Engineering Vibration is an international journal sponsored by the Institute of Engineering Mechanics (IEM), China Earthquake Administration in cooperation with the Multidisciplinary Center for Earthquake Engineering Research (MCEER), and State University of New York at Buffalo. It promotes scientific exchange between Chinese and foreign scientists and engineers, to improve the theory and practice of earthquake hazards mitigation, preparedness, and recovery. The journal focuses on earthquake engineering in all aspects, including seismology, tsunamis, ground motion characteristics, soil and foundation dynamics, wave propagation, probabilistic and deterministic methods of dynamic analysis, behavior of structures, and methods for earthquake resistant design and retrofit of structures that are germane to practicing engineers. It includes seismic code requirements, as well as supplemental energy dissipation, base isolation, and structural control.
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