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A platform for research: civil engineering, architecture and urbanism
Seismic vulnerability assessment of tall pier bridges under mainshock-aftershock-like earthquake sequences using vector-valued intensity measure
Highlights Assess fragility and financial loss of tall piers under main-aftershock sequences. Use vector-valued intensity measure to develop structural fragility. Mainshocks are more substantial than aftershocks to the structural vulnerability. Neglecting strong aftershocks will underestimate fragility and financial losses.
Abstract In most current seismic investigations on bridges with tall piers, only mainshock actions are considered without incorporating the effect of mainshock-aftershock (MA) sequences. This paper investigates the seismic fragility and the associated direct financial losses of tall pier bridges subjected to MA sequences using the vector-based intensity measure considering both main- and after-shocks. Numerical model of a typical RC tall pier bridge is developed and validated through shake table test results. Nonlinear time-history analyses are extensively conducted to obtain the seismic responses of the bridge under MA sequences, which are further utilized for the development of fragility surfaces. The analytical results show that in the MA sequences, the contribution of the aftershocks to the peak structural seismic demands is basically negligible unless their intensities exceeding critical values. While the structural vulnerabilities increase with both the intensities of main- and after-shocks, the role of mainshocks is observed more substantial. On the other hand, however, by totally neglecting the effect of the aftershocks, the failure probability and financial loss of the tall bridge would be underestimated, particularly when strong aftershocks occur following mainshocks.
Seismic vulnerability assessment of tall pier bridges under mainshock-aftershock-like earthquake sequences using vector-valued intensity measure
Highlights Assess fragility and financial loss of tall piers under main-aftershock sequences. Use vector-valued intensity measure to develop structural fragility. Mainshocks are more substantial than aftershocks to the structural vulnerability. Neglecting strong aftershocks will underestimate fragility and financial losses.
Abstract In most current seismic investigations on bridges with tall piers, only mainshock actions are considered without incorporating the effect of mainshock-aftershock (MA) sequences. This paper investigates the seismic fragility and the associated direct financial losses of tall pier bridges subjected to MA sequences using the vector-based intensity measure considering both main- and after-shocks. Numerical model of a typical RC tall pier bridge is developed and validated through shake table test results. Nonlinear time-history analyses are extensively conducted to obtain the seismic responses of the bridge under MA sequences, which are further utilized for the development of fragility surfaces. The analytical results show that in the MA sequences, the contribution of the aftershocks to the peak structural seismic demands is basically negligible unless their intensities exceeding critical values. While the structural vulnerabilities increase with both the intensities of main- and after-shocks, the role of mainshocks is observed more substantial. On the other hand, however, by totally neglecting the effect of the aftershocks, the failure probability and financial loss of the tall bridge would be underestimated, particularly when strong aftershocks occur following mainshocks.
Seismic vulnerability assessment of tall pier bridges under mainshock-aftershock-like earthquake sequences using vector-valued intensity measure
Chen, Xu (author) / Xiang, Nailiang (author) / Guan, Zhongguo (author) / Li, Jianzhong (author)
Engineering Structures ; 253
2021-12-03
Article (Journal)
Electronic Resource
English
Seismic vulnerability assessment of RC skew bridges subjected to mainshock-aftershock sequences
| British Library Online Contents | 2018
Seismic vulnerability assessment of RC skew bridges subjected to mainshock-aftershock sequences
| British Library Online Contents | 2018