2019
DOI: 10.1016/j.compstruct.2019.03.088
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Mechanical behavior of concrete prisms reinforced with steel and GFRP bar systems

Abstract: Being immune to corrosion, and having a tensile strength up to three times higher than structural steel, glass fiber reinforced polymer (GFRP) bars are suitable for reinforcing concrete structures exposed to aggressive environmental conditions. However, a relatively low elasticity modulus of GFRP bars favors the occurrence of relatively large deformability of cracked reinforced concrete. Lack of ductility and degradation of properties under high temperature can be also identified as debilities of GFRP bars ove… Show more

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Cited by 20 publications
(11 citation statements)
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“…However, a lower GWP at construction and a possible longer service life can be motivations for choosing an FRP variant over a fully steel-reinforced variant. In addition to enhancing the durability, a hybrid option with two layers of main reinforcement (one FRP layer and one steel layer) also improves the tensile response of a structure, as the stiffness is higher compared to a pure FRP-reinforced structure, while the steel reinforcement can be exploited in the post-yielding stage [68]. However, it should be noted that in hybrid steel-CFRP structures, direct contact between the CFRP and steel reinforcement must be avoided, as it triggers accelerated galvanic corrosion [69].…”
Section: Outlook 421 Using Less Gwp-intense Concretementioning
confidence: 99%
“…However, a lower GWP at construction and a possible longer service life can be motivations for choosing an FRP variant over a fully steel-reinforced variant. In addition to enhancing the durability, a hybrid option with two layers of main reinforcement (one FRP layer and one steel layer) also improves the tensile response of a structure, as the stiffness is higher compared to a pure FRP-reinforced structure, while the steel reinforcement can be exploited in the post-yielding stage [68]. However, it should be noted that in hybrid steel-CFRP structures, direct contact between the CFRP and steel reinforcement must be avoided, as it triggers accelerated galvanic corrosion [69].…”
Section: Outlook 421 Using Less Gwp-intense Concretementioning
confidence: 99%
“…1 Moreover, bond controls the effect of tension stiffening of the cracked RC elements. 2 Although the mechanics of bond behavior is quite well understood, still much needs to be done in quantifying various aspects of this highly complex phenomenon. 3,4 In the last decades, numerical simulation of bond action has emerged as a promising tool for bond analysis.…”
Section: Introductionmentioning
confidence: 99%
“…The bond ensures the composite action between reinforcement and concrete, controls the strength of the overlapped joints and beam‐column connections, limits the crack width, and guarantees the RC element's ductility under the ultimate loads 1 . Moreover, bond controls the effect of tension stiffening of the cracked RC elements 2 . Although the mechanics of bond behavior is quite well understood, still much needs to be done in quantifying various aspects of this highly complex phenomenon 3,4 …”
Section: Introductionmentioning
confidence: 99%
“…However, GFRP bars are an attractive alternative to traditional steel reinforcement of structural concrete exposed to highly corrosive environments, owing to their excellent resistance to electrochemical corrosion processes. 18,19,33,36,42 Some contrasting findings on the strength and stiffness characteristics of GFRP bars in the alkaline environment have been reported in the earlier studies. For example, Esmaeili et al 43 reported an inverse relationship between the strength loss and diameter of GFRP bars in contradiction to the findings of Arczewska, Polak, and Penlidis 44 and that of Benmokrane et al 45 Similarly, varied findings have been reported with regard to the reduction in elastic modulus of GFRP bars in the alkaline environment at elevated temperature.…”
Section: Introductionmentioning
confidence: 87%
“…This degradation is a major concern when GFRP is utilized as a reinforcement material in concrete. However, GFRP bars are an attractive alternative to traditional steel reinforcement of structural concrete exposed to highly corrosive environments, owing to their excellent resistance to electrochemical corrosion processes 18,19,33,36,42 . Some contrasting findings on the strength and stiffness characteristics of GFRP bars in the alkaline environment have been reported in the earlier studies.…”
Section: Introductionmentioning
confidence: 98%