“Capacity of Reinforced Concrete Structural Elements Retrofitted with GFRP Under Cyclic Loading,” Proceedings of the International Congress: Challenges of Concrete Construction, Dundee, Scotland, UK, Sept., pp. 213-224.
Proceedings of the International Congress: Challenges of Concrete Construction • 2002
Publication Information
Authors
Shaaban, I. G., and Torky, A.,
Keywords
Not Available
Journal
Proceedings of the International Congress: Challenges of Concrete Construction
Publisher
Dundee, Scotland, UK
Volume
September 2002
Issue
Not Available
Pages
pp. 213-224
publication.type
International
Paper Link
Not Available
Supplementary Materials
Not Available
Abstract
The aim of this study is to evaluate the improvement in seismic behavior of Reinforced Concrete (RC) structural elements as a result of retrofitting such elements using Glass Fiber Reinforced Plastics (GFRP) or enhancing the concrete quality using High Strength Concrete (HSC). A mathematical model was developed for the analysis of RC structures wrapped with FRP and linked to the inelastic damage analysis computer program IDARC3M, developed earlier by the authors for the analysis of HSC structural frames. The results predicted by the developed model were in good agreement with the experimental results obtained in the literature. The predicted results showed that wrapping the studied frame connection with GFRP improved its ductility and increased its capacity over the control connection (before retrofitting) by 82% and 160%, respectively. On the other hand, the analysis of HSC studied column using computer program IDARC3M showed a large increase in its capacity. However, special precautions should be taken to achieve good confinement in order to obtain acceptable ductility of HSC structural elements.
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