2020
DOI: 10.5267/j.esm.2019.9.001
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Experimental and numerical simulation of corrosion induced expansive pressure on concrete cover

Abstract: In this research, an investigation was carried out through experimentation and numerical modeling to evaluate the cracking pressure induced due to corrosion of reinforcement for different cover thicknesses, grades of concrete and bar locations. The model was also used to determine the patterns of crack for a different number of bars and the effect of bar diameter on cracking pressure. The critical pressure was measured experimentally by applying hydraulic pressure through a hole in concrete cubes of 150 mm. Ab… Show more

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Cited by 4 publications
(3 citation statements)
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“…Reinforcing steel remains in stable passive state at very high pH as shown in Figure 1. Since the pH of concrete pore solutions is very high (Austin et al, 2004;Nossoni and Harichandran, 2012;Morshed, 2020, Shakib and, concretes give a good protection against corrosion (Bazant, 1979;Broomfield, 2006;Maaddawy and Soudki, 2003). On the other hand, a passive layer is formed due to hydration of cement on the steel surface, which also protects it from corrosion.…”
Section: Electrochemical Concepts and Principle Of Faraday's Lawmentioning
confidence: 99%
“…Reinforcing steel remains in stable passive state at very high pH as shown in Figure 1. Since the pH of concrete pore solutions is very high (Austin et al, 2004;Nossoni and Harichandran, 2012;Morshed, 2020, Shakib and, concretes give a good protection against corrosion (Bazant, 1979;Broomfield, 2006;Maaddawy and Soudki, 2003). On the other hand, a passive layer is formed due to hydration of cement on the steel surface, which also protects it from corrosion.…”
Section: Electrochemical Concepts and Principle Of Faraday's Lawmentioning
confidence: 99%
“…Adverse weathering conditions, such as corrosion of reinforcement due to salinity as well as carbon dioxide, deterioration of concrete due to sulphates and alkaline solutions, wear and abrasion due to tidal effect, successive freeze-thaw effect, etc., deteriorate the structures (Bažant, 1979; Mundra et al. , 2017; Neville, 2011; Shakib et al. , 2020; Shakib and Morshed, 2019; Val et al.…”
Section: Introductionmentioning
confidence: 99%
“…However, these structures lose some strength due to their normal use over time (Neville, 2011). Adverse weathering conditions, such as corrosion of reinforcement due to salinity as well as carbon dioxide, deterioration of concrete due to sulphates and alkaline solutions, wear and abrasion due to tidal effect, successive freeze-thaw effect, etc., deteriorate the structures (Ba zant, 1979;Mundra et al, 2017;Neville, 2011;Shakib et al, 2020;Shakib and Morshed, 2019;Val et al, 2009). Higher temperature exposure due to fire is another cause to deteriorate the reinforced concrete (RC) structures (Mahmud et al, 2021).…”
mentioning
confidence: 99%