Evaluation of seismic resilience index for typical RC school buildings considering carbonate corrosion effects

Researches have shown that the occurrence and development of corrosion in reinforced concrete structures can lead to the production of materials with a volume multiplied by the initial volume of steel reinforcement bars in concrete. This volume expansion reduces the compressive and tensile strength...

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Bibliographic Details
Published in:International journal of disaster risk reduction 2020-06, Vol.46, p.101511, Article 101511
Main Authors: Shamsoddini Motlagh, Zahra, Raissi Dehkordi, Morteza, Eghbali, Mahdi, Samadian, Delbaz
Format: Article
Language:English
Subjects:
Carbonate corrosion
School building
Seismic resilience
Vulnerability
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Summary:Researches have shown that the occurrence and development of corrosion in reinforced concrete structures can lead to the production of materials with a volume multiplied by the initial volume of steel reinforcement bars in concrete. This volume expansion reduces the compressive and tensile strength of reinforced concrete structures and, consequently, weakens the structures, making them prone to considerable damages in natural and human disasters. Hence, it is vital to evaluate the resilience and vulnerability of important structures, such as school buildings, in a corrosive environment. For purposes of this paper, a high school located in Tehran was selected as a case study, and the seismic resilience index was calculated under carbonation-initiated corrosion. The amount of resilience is assessed based on analytic functions over a specified time by different variables, including losses from probable hazards and the recovery process. The loss process is composed of damages caused from both earthquakes and corrosions; and the calculation of loss functions is applied in accordance with Iran's economic conditions. In this paper, the seismic resilience index for existing and corroded buildings has been calculated at 2 hazard levels of 10% and 2% over 50 years under near-fault pulse-type ground motions and without pulse-type ones. Also, the actual functionality curve of the school building is depicted in the lifespan of the high school, both with and without the corrosion effect. Finally, sensitivity analysis on the resilience parameters is illustrated towards the end of this paper. •Typical high school was considered for resilience evaluation.•Vulnerability curves were utilized for seismic resilience index extraction under near-fault pulse-type ground motions and without pulse-type ones.•The loss process is composed of both damages from earthquake event and corrosion effect.•For the first time, the actual functionality curve of the school building is depicted in the lifespan of the high school in two types of corrosion and without corrosion effect.•Finally, the sensitivity analysis on resiliency parameters has been done at the end of this paper.
ISSN:2212-4209
2212-4209
DOI:10.1016/j.ijdrr.2020.101511