Accelerated corrosion investigation of axially loaded reinforced concrete elements

Purpose – This paper aims to present results of an experimental investigation on a series of scaled reinforced concrete column elements which were subjected to chloride exposure under accelerated conditions under a concurrent service axial load, over a period. In the presence of an axial load, direc...

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Bibliographic Details
Published in:Anti-corrosion methods and materials 2014-01, Vol.61 (4), p.215-223
Main Authors: Zeris, Christos, Batis, George, Mouloudakis, Vassilios, Marakis, John
Format: Article
Language:English
Subjects:
Axial loads
Cement
Chloride
Chlorides
Concrete
Concrete columns
Concretes
Corrosion
Corrosion inhibitors
Corrosion prevention
Corrosion rate
Corrosion tests
Cracks
Density
Design
Engineering
Load distribution
Mechanical engineering
Microcracks
Reinforced concrete
Seismic engineering
Studies
Voltage
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Summary:Purpose – This paper aims to present results of an experimental investigation on a series of scaled reinforced concrete column elements which were subjected to chloride exposure under accelerated conditions under a concurrent service axial load, over a period. In the presence of an axial load, directed microcracks of increasing density and width are introduced in the concrete mass, depending on the axial load level. Such cracks are believed to enhance the intrusion rate of chlorides in the concrete, relative to what is obtained in the normally performed unloaded specimen tests. Design/methodology/approach – Eighteen column specimens were tested over two chloride exposure periods, of duration up to a maximum of six months. Three different service axial load levels were considered, namely, none, 22 per cent and 43 per cent of the normalized axial load capacity of the columns. Findings – The results indicate that the specimens loaded to the higher axial load, which closely resembles actual service situation of such type of elements, exhibited up to ten times faster rates of induced current flow under a constant applied voltage of 500 mV, compared to the unloaded and less loaded specimens. Practical implications – It is proven that the presence of axial load influences the rate of chloride ingress in columns and, therefore, should be taken into account in estimating the concrete cover of such elements in durability design. Originality/value – The influence of axial loading on corrosion rate has not been considered in published experimental and analytical studies of chloride ingression. These studies have typically so far considered the accelerated corrosion of unloaded column specimens.
ISSN:0003-5599
1758-4221
DOI:10.1108/ACMM-01-2013-1236