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Seismic vulnerability assessment of ageing reinforced concrete structures under real mainshock-aftershock ground motions

Seismic vulnerability assessment of ageing reinforced concrete structures under real mainshock-aftershock ground motions
Seismic vulnerability assessment of ageing reinforced concrete structures under real mainshock-aftershock ground motions
Ageing structures located in moderate to high seismicity regions are exposed to multiple natural stressors during their lifetime. Large earthquake events coupled with environmental aggressive agents increase the progressive failure probability of these structures. The accumulated damage during the main earthquake event might be exacerbated by its following aftershocks. This might result in catastrophic failure of these structures, and consequently, result in several socio-economic losses. Taking such progressive deterioration mechanism into consideration, the current study presents a framework to assess the vulnerability of ageing Reinforced Concrete (RC) frames subject to real Mainshock-Aftershock (MS-AS) ground motion sequences. Employing an advanced fibre-based finite element modelling technique, the nonlinear static and dynamic behaviour of a case-study RC frame with various ages is simulated under 48 real MS-AS record pairs. Quantifying corrosion-variant damage states, the age-specific fragility curves are developed for the considered structure under both single MS events and MS-AS sequences. It was found that the severely corroded RC frames are most likely to collapse before the second event comes up. Moreover, results show that the PGA ratio of AS to MS plays a critical role in seismic vulnerability assessment of highly corrosion-damaged RC frames.
Corrosion, fragility curves, mainshock-aftershock, reinforced concrete, vulnerability assessment
1573-2479
1674-1690
Afsar Dizaj, Ebrahim
387bbd6f-a74a-47fe-9637-af62729ba50d
Salami, Mohammad Reza
db0a471b-65d9-45d6-973b-ae10a3e4febd
Kashani, Mohammad
d1074b3a-5853-4eb5-a4ef-7d741b1c025d
Afsar Dizaj, Ebrahim
387bbd6f-a74a-47fe-9637-af62729ba50d
Salami, Mohammad Reza
db0a471b-65d9-45d6-973b-ae10a3e4febd
Kashani, Mohammad
d1074b3a-5853-4eb5-a4ef-7d741b1c025d

Afsar Dizaj, Ebrahim, Salami, Mohammad Reza and Kashani, Mohammad (2021) Seismic vulnerability assessment of ageing reinforced concrete structures under real mainshock-aftershock ground motions. Structure and Infrastructure Engineering, 18 (12), 1674-1690. (doi:10.1080/15732479.2021.1919148).

Record type: Article

Abstract

Ageing structures located in moderate to high seismicity regions are exposed to multiple natural stressors during their lifetime. Large earthquake events coupled with environmental aggressive agents increase the progressive failure probability of these structures. The accumulated damage during the main earthquake event might be exacerbated by its following aftershocks. This might result in catastrophic failure of these structures, and consequently, result in several socio-economic losses. Taking such progressive deterioration mechanism into consideration, the current study presents a framework to assess the vulnerability of ageing Reinforced Concrete (RC) frames subject to real Mainshock-Aftershock (MS-AS) ground motion sequences. Employing an advanced fibre-based finite element modelling technique, the nonlinear static and dynamic behaviour of a case-study RC frame with various ages is simulated under 48 real MS-AS record pairs. Quantifying corrosion-variant damage states, the age-specific fragility curves are developed for the considered structure under both single MS events and MS-AS sequences. It was found that the severely corroded RC frames are most likely to collapse before the second event comes up. Moreover, results show that the PGA ratio of AS to MS plays a critical role in seismic vulnerability assessment of highly corrosion-damaged RC frames.

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Dizaj-Salami-Kashani_Structure and Infrastructure Engineering_AcceptedManuscript - Accepted Manuscript
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More information

Accepted/In Press date: 4 February 2021
Published date: 7 May 2021
Additional Information: Publisher Copyright: © 2021 Informa UK Limited, trading as Taylor & Francis Group.
Keywords: Corrosion, fragility curves, mainshock-aftershock, reinforced concrete, vulnerability assessment

Identifiers

Local EPrints ID: 470064
URI: http://eprints.soton.ac.uk/id/eprint/470064
DOI: doi:10.1080/15732479.2021.1919148
ISSN: 1573-2479
PURE UUID: 0b6b5b50-cd83-474a-8139-eb0329d28ac9
ORCID for Mohammad Kashani: ORCID iD orcid.org/0000-0003-0008-0007

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Date deposited: 03 Oct 2022 16:30
Last modified: 17 Mar 2024 06:22

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Author: Ebrahim Afsar Dizaj
Author: Mohammad Reza Salami
Author: Mohammad Kashani ORCID iD

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