Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Nonlinear site response from the strong ground-motion recordings in western China
Abstract Strong ground-motion records from the mainshocks and aftershocks of the 2008 Wenchuan (Ms 8.0) and 2013 Lushan (Ms 7.0) earthquakes, within 300km from the faults, were used for horizontal-to-vertical spectral ratio (HVSR) analysis. The HVRSs of the S-wave show that the predominant site frequency decreases with increasing ground-motion level, a characteristic of nonlinear dynamic soil response. We applied diffuse field theory and Monte Carlo search in the model space to produce an inverted shear-wave velocity profile using the HVSRs of weak S-wave motions. The inverted velocity structures are significantly different from the initial ones derived from in-situ measurements. We also applied 1-D equivalent-linear site-response analysis to derive the spectral ratios (i.e., transfer function) for the original and inverted soil models, and compared the results with the observed HVRSs of the S-wave motions. The comparisons showed that the spectral ratios from 1-D simulation for the inverted soil models agree quite well with the observed HVRSs. In other words, this study suggests that the HVSR from observed earthquake ground motion resembles the empirical transfer function of nonlinear site-response.
Highlights We perform HVSR analysis on the observed strong ground motions in western China. Characteristics of the nonlinear site response are demonstrated by HVSR analysis. 1-D equivalent-linear method is a reasonable way to explain observed nonlinearity. HVSR resembles the empirical transfer function of nonlinear site-response.
Nonlinear site response from the strong ground-motion recordings in western China
Abstract Strong ground-motion records from the mainshocks and aftershocks of the 2008 Wenchuan (Ms 8.0) and 2013 Lushan (Ms 7.0) earthquakes, within 300km from the faults, were used for horizontal-to-vertical spectral ratio (HVSR) analysis. The HVRSs of the S-wave show that the predominant site frequency decreases with increasing ground-motion level, a characteristic of nonlinear dynamic soil response. We applied diffuse field theory and Monte Carlo search in the model space to produce an inverted shear-wave velocity profile using the HVSRs of weak S-wave motions. The inverted velocity structures are significantly different from the initial ones derived from in-situ measurements. We also applied 1-D equivalent-linear site-response analysis to derive the spectral ratios (i.e., transfer function) for the original and inverted soil models, and compared the results with the observed HVRSs of the S-wave motions. The comparisons showed that the spectral ratios from 1-D simulation for the inverted soil models agree quite well with the observed HVRSs. In other words, this study suggests that the HVSR from observed earthquake ground motion resembles the empirical transfer function of nonlinear site-response.
Highlights We perform HVSR analysis on the observed strong ground motions in western China. Characteristics of the nonlinear site response are demonstrated by HVSR analysis. 1-D equivalent-linear method is a reasonable way to explain observed nonlinearity. HVSR resembles the empirical transfer function of nonlinear site-response.
Nonlinear site response from the strong ground-motion recordings in western China
Rong, Mianshui (Autor:in) / Wang, Zhenming (Autor:in) / Woolery, Edward W. (Autor:in) / Lyu, Yuejun (Autor:in) / Li, Xiaojun (Autor:in) / Li, Shanyou (Autor:in)
Soil Dynamics and Earthquake Engineering ; 82 ; 99-110
07.12.2015
12 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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