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Feasibility of iron-based shape memory alloy strips for shear strengthening of damaged RC beams promoting the formation of plastic hinges

Celia Traver, Joaquín G. Ruiz-Pinilla, Andrea Monserrrat, Luis A. Montoya-Coronado, Pedro F. Miguel, Carlos Ribas, Antoni Cladera, J.L. Bonet

2023Construction and Building Materials14 citationsDOIOpen Access PDF

Abstract

This research focuses on the proof of concept of the feasibility of iron-based shape memory alloys strips (Fe-SMA) to strengthen damaged structures by promoting the yielding of longitudinal reinforcement. For this purpose, an experimental campaign on real-scale reinforced concrete beams previously damaged on shear and retested after being strengthened was carried out. The strengthening technique consists of external Fe-SMA strips wrapping the beams. The results show a very significant increase in both shear strength and ductility. In addition, shear predictions were calculated and compared by several design models. This study highlights the potentialities of Fe-SMA as a strengthening technique for damaged beams on shear.

Topics & Concepts

STRIPSSMA*Materials scienceShape-memory alloyShear (geology)HingeStructural engineeringDuctility (Earth science)Composite materialReinforcementReinforced concreteEngineeringComputer scienceCreepAlgorithmStructural Behavior of Reinforced ConcreteConcrete Corrosion and DurabilityStructural Load-Bearing Analysis
Feasibility of iron-based shape memory alloy strips for shear strengthening of damaged RC beams promoting the formation of plastic hinges | Litcius