Seismic fragility curves using pulse-like and spectrally equivalent ground-motion records

IF 1.4 4区工程技术 Q3 ENGINEERING, CIVIL

Earthquakes and Structures Pub Date : 2020-08-01 DOI:10.12989/EAS.2020.19.2.079

M. Surana

引用次数: 0

Abstract

4- and 8-storey reinforced-concrete frame buildings are analyzed under the suites of the near-fault pulse-like, and the corresponding spectrally equivalent far-fault ground-motion records. Seismic fragility curves for the slight, moderate, extensive, and complete damage states are developed, and the damage probability matrices, and the mean loss ratios corresponding to the Design Basis Earthquake and the Maximum Considered Earthquake hazard levels are compared, for the investigated buildings and sets of ground-motion records. It is observed that the spectrally equivalent far-fault ground-motion records result in comparable estimates of the fragility curve parameters, as that of the near-fault pulse-like ground-motion records. As a result, the derived damage probability matrices and mean loss ratios using two suites of ground-motion records differ only marginally (of the order of ~10%) for the investigated levels of seismic hazard, thus, implying the potential for application of the spectrally equivalent ground-motion records, for seismic fragility and risk assessment at the near-fault sites.

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地震易损性曲线使用脉冲和频谱等效的地面运动记录

分析了4层和8层钢筋混凝土框架建筑在近断层脉动和相应的远断层等效地震动记录组下的地震活动。建立了建筑在轻微、中等、广泛和完全损伤状态下的地震易损性曲线，比较了建筑在设计基础地震和最大考虑地震危险等级下的损伤概率矩阵和平均损失率。观察到，谱等效的远断层地震动记录与近断层脉状地震动记录的脆性曲线参数估计值相当。因此，使用两组地震动记录得出的损伤概率矩阵和平均损失率对于所调查的地震危险级别只有微小的差异(约为10%)，因此，这意味着将频谱等效地震动记录应用于近断层地点的地震易损性和风险评估的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Earthquakes and Structures ENGINEERING, CIVIL-ENGINEERING, GEOLOGICAL

CiteScore

2.90

自引率

20.00%

发文量

审稿时长

>12 weeks

期刊介绍： The Earthquakes and Structures, An International Journal, focuses on the effects of earthquakes on civil engineering structures. The journal will serve as a powerful repository of technical information and will provide a highimpact publication platform for the global community of researchers in the traditional, as well as emerging, subdisciplines of the broader earthquake engineering field. Specifically, some of the major topics covered by the Journal include: .. characterization of strong ground motions, .. quantification of earthquake demand and structural capacity, .. design of earthquake resistant structures and foundations, .. experimental and computational methods, .. seismic regulations and building codes, .. seismic hazard assessment, .. seismic risk mitigation, .. site effects and soil-structure interaction, .. assessment, repair and strengthening of existing structures, including historic structures and monuments, and .. emerging technologies including passive control technologies, structural monitoring systems, and cyberinfrastructure tools for seismic data management, experimental applications, early warning and response