Corrosion behavior analysis of self-compacting concrete using impressed current and rapid chloride penetration test

College

Gokongwei College of Engineering

Department/Unit

Civil Engineering

Document Type

Article

Source Title

International Journal of GEOMATE

Volume

24

Issue

101

First Page

76

Last Page

83

Publication Date

1-2023

Abstract

Corrosion is the leading reason for reinforced concrete structures reduced service life.Structures such as ports and harbors and bridges and other offshore and near shore are prone to chloride- induced corrosion. This research evaluates the use of self-compacting concrete (SCC) as an alternative concrete for such structures. In theory, SCC reduced water content, and high cement and powder content will help protect the reinforcement from chloride intrusion because of its lower porosity and the alkalinity that the cement provided. Sixteen different mixtures of SCCs were mixed and tested for rheology, compressive strength, rapid chloride ion penetration test (RCPT), and impressed current (IC). Water content is the significant factor that affects both RCPT and IC. The segregation of SCC when too much water-cement ratio is combined with a high amount of superplasticizer resulted in a high level of corrosion in the reinforcement. The formation of cracks accelerates the corrosion due to the increased flow of current in the IC set-up. The impressed current technique is the suggested method for determining the corrosion resistance of concrete since it simulates the similar effect of corrosion to concrete which is cracking. It also stimulates the effect of rust on the flow of current. A rapid chloride penetration test is a good indicator of the durability of concrete but may be insignificant for predicting the corrosion level of reinforcement for SCC. Segregation negatively affects the total charge passed in the impressed current and the corrosion level of the rebar.

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Digitial Object Identifier (DOI)

10.21660/2023.101.s8575

Disciplines

Civil and Environmental Engineering

Keywords

Self-consolidating concrete; Reinforced concrete—Corrosion

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