Seismic fragility analysis of nonuniformly corroded irregular RC bridges
Seismic fragility analysis of nonuniformly corroded irregular RC bridges
Reinforced Concrete (RC) bridges in over crossings are typically constructed with unequal-height piers. The resulting substructure irregularity triggers an unbalanced seismic behaviour of these bridges, which increases their seismic vulnerability. The seismic irregularity of such bridge structures might be further intensified if the piers of varying heights expose to unsymmetrical chloride-induced corrosion damage. To accurately evaluate the seismic vulnerability of corroded irregular RC bridges, this paper studies the seismic fragility of a benchmark multi-span irregular RC bridge with five different corrosion damage scenarios, including unsymmetrical corrosion of piers. Toward this objective, first, monotonic nonlinear pushover analysis is used to quantify the time-dependent seismic capacity limit states by employing an advanced three-dimensional nonlinear finite element model. Then, Incremental Dynamic Analysis (IDA) and seismic fragility analysis are carried out to investigate the nonlinear dynamic behaviour and vulnerability of selected corroded bridges. The results show that, depending on the corrosion scenario, the distribution of seismic ductility demands can be varied in unequal-height bents, which can change the critical bent within a bridge system. Furthermore, results indicate that severe unsymmetrical corrosion damage can cause a synchronised failure of unequal-height piers.
1 INTRODUCTION
3364-3371
Afsar Dizaj, Ebrahim
387bbd6f-a74a-47fe-9637-af62729ba50d
Salami, Mohammad Reza
db0a471b-65d9-45d6-973b-ae10a3e4febd
Kashani, Mohammad
d1074b3a-5853-4eb5-a4ef-7d741b1c025d
28 June 2023
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
(2023)
Seismic fragility analysis of nonuniformly corroded irregular RC bridges.
Biondini, Fabio and Frangopol, Dan M.
(eds.)
In Life-Cycle of Structures and Infrastructure Systems.
.
(doi:10.1201/9781003323020-411).
Record type:
Conference or Workshop Item
(Paper)
Abstract
Reinforced Concrete (RC) bridges in over crossings are typically constructed with unequal-height piers. The resulting substructure irregularity triggers an unbalanced seismic behaviour of these bridges, which increases their seismic vulnerability. The seismic irregularity of such bridge structures might be further intensified if the piers of varying heights expose to unsymmetrical chloride-induced corrosion damage. To accurately evaluate the seismic vulnerability of corroded irregular RC bridges, this paper studies the seismic fragility of a benchmark multi-span irregular RC bridge with five different corrosion damage scenarios, including unsymmetrical corrosion of piers. Toward this objective, first, monotonic nonlinear pushover analysis is used to quantify the time-dependent seismic capacity limit states by employing an advanced three-dimensional nonlinear finite element model. Then, Incremental Dynamic Analysis (IDA) and seismic fragility analysis are carried out to investigate the nonlinear dynamic behaviour and vulnerability of selected corroded bridges. The results show that, depending on the corrosion scenario, the distribution of seismic ductility demands can be varied in unequal-height bents, which can change the critical bent within a bridge system. Furthermore, results indicate that severe unsymmetrical corrosion damage can cause a synchronised failure of unequal-height piers.
1 INTRODUCTION
Text
Dizaj_et al_bridge
- Accepted Manuscript
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Published date: 28 June 2023
Identifiers
Local EPrints ID: 479967
URI: http://eprints.soton.ac.uk/id/eprint/479967
PURE UUID: 5b18e7ed-965b-4188-9f57-0e35d14086e4
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Date deposited: 31 Jul 2023 16:49
Last modified: 17 Mar 2024 03:46
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Contributors
Author:
Ebrahim Afsar Dizaj
Author:
Mohammad Reza Salami
Editor:
Fabio Biondini
Editor:
Dan M. Frangopol
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