2017
DOI: 10.1016/j.compositesb.2017.01.020
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Corrosion-induced cracking and bond behaviour of corroded reinforcement bars in SFRC

Abstract: This paper investigates, experimentally and numerically, the effect of fibre reinforcement on the initiation of corrosion-induced cracks in concrete and the bond behaviour of corroded reinforcement bars in fibre reinforced concrete. The fibres, due to their confining effect, contributed to delay crack initiation, improve the post-peak bond behaviour and retain the initial splitting strength for corrosion levels of up to 8%. The mechanisms for delayed crack initiation were explained through 3D finite element an… Show more

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Cited by 67 publications
(32 citation statements)
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“…Moreover, FRC may delay cover cracking under corrosion expansion due to the additional confinement provided by fibres [38,39]. Undoubtedly, longitudinal cracks may greatly aggravate the total steel loss (as in pit volume) by increasing the anodic length.…”
Section: Implications For the Long-term Durability Of Frc Structuresmentioning
confidence: 99%
“…Moreover, FRC may delay cover cracking under corrosion expansion due to the additional confinement provided by fibres [38,39]. Undoubtedly, longitudinal cracks may greatly aggravate the total steel loss (as in pit volume) by increasing the anodic length.…”
Section: Implications For the Long-term Durability Of Frc Structuresmentioning
confidence: 99%
“…Different approaches have been followed in the current state of the art for the modelling of the structural effects of corrosion of steel reinforcement in RC structures. As it is reflected in many studies and in the present work, the effects of corrosion on the structural behavior are very wide and complex (Fernandez et al 2015; Tahershamsi Page 20 of 23 Fernandez et al Int J Concr Struct Mater (2018) 12:75 et al 2014Berrocal et al 2017;Cairns et al 2005;Cobo et al 2011;Stewart 2009;Law et al 2008;Zhu et al 2013). One of the most relevant structural effects of corrosion of reinforcing steel bars are those derived from the change of the interaction between the concrete and steel, namely bond behavior.…”
Section: Modelling Approaches For the Assessment Of Corroded Rc Strucmentioning
confidence: 70%
“…For example, in order to capture local effects, full interaction models that account for the multiaxial stress state around the steel bar are necessary for a realistic representation of the corrosion effects on the structure. Such models require the development of 3D solid models that can cope with the full description of the bond interaction (Berrocal et al 2017;Jansson et al 2012;Lundgren 2002;Ožbolt et al 2011). Nevertheless, some efforts have been carried out to perform simplifications in the modelling approaches for two reasons.…”
Section: Modelling Approaches For the Assessment Of Corroded Rc Strucmentioning
confidence: 99%
“…Metallic bristle brushing is the most commonly used cleaning method [27,30,31]; this is mainly because it entails a low number of requirements for its use. Conversely, immersion in an acid solution is less common [7,15,32,33]. As required by the specified standard [20], the weight loss was measured after several cleaning cycles.…”
Section: Removal Of Corrosion Products and Assessment Of The Corrosiomentioning
confidence: 99%
“…For example, several previous studies [1][2][3][4] addressed the structural effects of corrosion. Various studies investigated local aspects that addressed the effects of corrosion on bond behaviour [5][6][7], change in mechanical properties [8][9][10][11], and other corrosion related phenomena [12][13][14][15]. However, most existing studies were conducted under accelerated corrosion conditions.…”
Section: Introductionmentioning
confidence: 99%