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Research Article | Open Access

Seismic performance of ductile corrosion-free reinforced concrete frames

Mohamed E. Meshaly1,2( )Maged A. Youssef3Ahmed A. Elansary3,4
Structural Engineering Department, Alexandria University, Alexandria, Egypt
Construction & Building Engineering Department, Arab Academy for Science, Technology & Maritime Transport (AASTMT), Alexandria, Egypt
Civil and Environmental Engineering, Western University, London, Ontario, Canada, N6A 5B9
Department of Structural Engineering, Cairo University, Giza, Egypt
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Abstract

Corrosion of steel bars is the main cause of the deterioration of reinforced concrete (RC) structures. To avoid this problem, steel rebars can be replaced with glass-fiber-reinforced-polymer (GFRP). However, the brittle behaviour of GFRP RC elements has limited their use in many applications. The use of shape memory alloy (SMA) and/or stainless steel (SS) rebars can solve this problem, because of their ductile behaviour and corrosion resistance. However, their high price is a major obstacle. To address issues of ductility, corrosion, and cost, this paper examines the hybrid use of GFRP, SS, and SMA in RC frames. The use of SMA provides an additional advantage as it reduces seismic residual deformations. Three frames were designed. A steel RC frame, SS-GFRP RC frame, and SMA-SS-GFRP RC frame. The design criteria for the two GFRP RC frames followed previous research by the authors, which aimed at having approximately equal lateral resistance, stiffness, and ductility for GFRP and steel RC frames. The three frames were then analyzed using twenty seismic records. Their seismic performance confirmed the success of the adopted design methodology in achieving corrosion-free frames that provide adequate seismic performance.

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AIMS Materials Science
Pages 750-769

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Cite this article:
Meshaly ME, Youssef MA, Elansary AA. Seismic performance of ductile corrosion-free reinforced concrete frames. AIMS Materials Science, 2022, 9(5): 750-769. https://doi.org/10.3934/matersci.2022046

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Received: 05 April 2022
Revised: 24 August 2022
Accepted: 31 August 2022
Published: 15 October 2022
©2022 the Author(s), licensee AIMS Press.

This is an open access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0)