Corrosion and Chloride Diffusivity of Reinforced Concrete Cracked under Sustained Flexure | Zendy

Nilüfer Özyurt | Zendy; T.A. Söylev | Zendy; Turan Özturan | Zendy; Ahmet Onur Pehlivan | Zendy; Anıl Niş | Zendy

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Corrosion and Chloride Diffusivity of Reinforced Concrete Cracked under Sustained Flexure

Author(s) -

Nilüfer Özyurt,

T.A. Söylev,

Turan Özturan,

Ahmet Onur Pehlivan,

Anıl Niş

Publication year - 2019

Publication title -

teknik dergi

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.146

H-Index - 7

ISSN - 1300-3453

DOI - 10.18400/tekderg.430536

Subject(s) - chloride , concrete cover , corrosion , materials science , cement , composite material , flexural strength , thermal diffusivity , wetting , water–cement ratio , reinforced concrete , metallurgy , quantum mechanics , physics

This research discusses the chloride diffusivity of concrete as well as corrosion performance of rebars in cracked and uncracked states. Prismatic concrete specimens with two water-to-cement ratios, two concrete cover thicknesses with and without steel fibers were used. Three-point flexural loading was applied to form cracks and cracks were sustained by a bolt system. Half-cell potential and corrosion rate measurements were carried out following wetting – drying cycles in chloride environment which were continued for 80 weeks. The positive effects of lower water – to – cement ratio and greater cover depth were found to be surpassed by existence of cracks in concrete.

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