Vulnerability of suspension bridges to spatially variable vertical ground motions

IF 3.1 2区 工程技术 Q2 ENGINEERING, CIVIL
Arsam Taslimi, Floriana Petrone
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Abstract

This study investigates the vulnerability of long-span suspension bridges to spatially variable vertical ground motions (SV-VGMs). While of recognized importance, a comprehensive understanding of this topic has been traditionally limited by the unavailability of an adequate number of arrays of motions. In this work, 10 simulations of a large-magnitude Hayward Fault earthquake are utilized to perform site-specific structural response assessments of a suspension bridge under different load scenarios. A detailed nonlinear model representative of the West San Francisco-Oakland Bay Bridge is employed as the case study structure. Four sets of nonlinear time-history analyses are performed with and without VGMs and with and without the incorporation of spatial variability to offer the basis for a complete comparison of the demand distributions across different load cases. Results indicate that VGMs largely influence the response of the bridge decks in the vertical direction, with an increase in drifts up to 2× for the case of synchronous input and up to 2.5× for the case of asynchronous inputs. The analysis of the bridge response in the time and frequency domain across all load cases reveals a high sensitivity of the decks’ response to minor time lags in input motions of comparable amplitude, which are seen to activate the contribution of higher modes to the structural response. Evidence from this study points to the potential of severely underestimating structural demands if the (even limited) spatial variability of the input motions is not incorporated correctly. For the case study structure, the probability of exceeding the onset of nonlinearity in the short decks at the design earthquake level is seen to increase by a factor of about two when considering SV-VGMs as opposed to synchronous horizontal motions only.
悬索桥对空间可变垂直地动的脆弱性
本研究探讨了大跨度悬索桥在空间可变垂直地震动(SV-VGMs)面前的脆弱性。尽管其重要性已得到公认,但对这一课题的全面了解一直受到无法获得足够数量的地震运动阵列的限制。在这项研究中,利用 10 次大震级海沃德断层地震的模拟,对一座悬索桥在不同荷载情况下的特定场地结构响应进行了评估。案例研究结构采用了代表西旧金山-奥克兰海湾大桥的详细非线性模型。在有无 VGM 以及有无空间变化的情况下,进行了四组非线性时程分析,为全面比较不同荷载情况下的需求分布提供了基础。结果表明,VGM 在很大程度上影响了桥面在垂直方向上的响应,在同步输入的情况下,漂移增加达 2 倍,在异步输入的情况下,漂移增加达 2.5 倍。对所有荷载情况下桥梁响应的时域和频域分析表明,桥面响应对振幅相当的输入运动的微小时滞具有高度敏感性,这些时滞可激活较高模态对结构响应的贡献。这项研究的证据表明,如果不正确考虑输入运动的空间变化(即使是有限的),就有可能严重低估结构需求。对于案例研究的结构而言,如果只考虑同步水平运动,而不考虑 SV-VGMs ,那么在设计地震级别下,短层结构中超过非线性起始点的概率将增加约 2 倍。
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来源期刊
Earthquake Spectra
Earthquake Spectra 工程技术-工程:地质
CiteScore
8.40
自引率
12.00%
发文量
88
审稿时长
6-12 weeks
期刊介绍: Earthquake Spectra, the professional peer-reviewed journal of the Earthquake Engineering Research Institute (EERI), serves as the publication of record for the development of earthquake engineering practice, earthquake codes and regulations, earthquake public policy, and earthquake investigation reports. The journal is published quarterly in both printed and online editions in February, May, August, and November, with additional special edition issues. EERI established Earthquake Spectra with the purpose of improving the practice of earthquake hazards mitigation, preparedness, and recovery — serving the informational needs of the diverse professionals engaged in earthquake risk reduction: civil, geotechnical, mechanical, and structural engineers; geologists, seismologists, and other earth scientists; architects and city planners; public officials; social scientists; and researchers.
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