Probabilistic capacity models and seismic fragility estimates for RC columns subject to corrosion

Probabilistic capacity models and seismic fragility estimates for RC columns subject to corrosion

In this paper, probabilistic drift and shear force capacity models are developed for corroding reinforced concrete (RC) columns. The developments represent a merger between a probabilistic model for chloride-induced corrosion, a time-dependent corrosion rate, and previously developed probabilistic m...

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Bibliographic Details
Published in:Reliability engineering & system safety Vol. 93; no. 3; pp. 383 - 393
Main Authors: Choe, Do-Eun, Gardoni, Paolo, Rosowsky, David, Haukaas, Terje
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-03-2008
Subjects:
Concrete columns
Corrosion
Drift capacity
Probabilistic capacity models
Shear capacity
Shear capacity
Drift capacity
Concrete columns
Corrosion
Probabilistic capacity models
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Summary:In this paper, probabilistic drift and shear force capacity models are developed for corroding reinforced concrete (RC) columns. The developments represent a merger between a probabilistic model for chloride-induced corrosion, a time-dependent corrosion rate, and previously developed probabilistic models for drift and shear force capacity of pristine (undamaged) RC columns. Fragility estimates are obtained for an example corroding column by applying the developed models at given shear and drift demands. Model uncertainties in both the capacity and corrosion models are considered in the fragility estimation, in addition to uncertainties in environmental conditions, material properties, and structural geometry. Sensitivity analyses of the corroding RC column are carried out to identify the parameters to which the reliability of the example column is most sensitive. The developed models consider different combinations of chloride exposure condition, environmental oxygen availability, water-to-cement ratios, and curing conditions. They are applicable to both existing and new RC columns and may be employed for the prediction of service-life and life-cycle cost analysis of RC structures.
Bibliography:ObjectType-Article-2
SourceType-Scholarly Journals-1
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content type line 23
ISSN:0951-8320
1879-0836
DOI:10.1016/j.ress.2006.12.015