Carbonation resistance of cements containing supplementary cementitious materials and its relation to various parameters of concrete

•Carbonation of cement containing supplementary cementitious materials was studied.•Linear relation was observed between accelerated and natural carbonation coefficients.•Reserve alkalinity was found to be the major factor governing rate of carbonation.•No direct correlation was observed between car...

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Bibliographic Details
Published in:Construction & building materials 2018-07, Vol.178, p.219-232
Main Authors: Shah, Vineet, Bishnoi, Shashank
Format: Article
Language:English
Subjects:
Accelerated carbonation
Analysis
Chemical properties
Compressive strength
Concretes
Mechanical properties
Relative humidity
Reserve alkalinity
Supplementary cementitious materials
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Summary:•Carbonation of cement containing supplementary cementitious materials was studied.•Linear relation was observed between accelerated and natural carbonation coefficients.•Reserve alkalinity was found to be the major factor governing rate of carbonation.•No direct correlation was observed between carbonation depth and strength.•Empirical relation is proposed to predict carbonation depth. In this study, the carbonation resistance of cements containing supplementary cementitious materials (SCMs) exposed to carbon dioxide concentrations of 1% and 3%, relative humidity of 40%, 60% and 80% and temperature of 27 °C and 45 °C at two different water to cement ratio is investigated. The carbonation performance of concrete samples placed in accelerated conditions is compared to that of concrete samples exposed to natural conditions. The comparison of carbonation coefficients of concrete exposed to different environmental conditions indicates that the rate of carbonation is primarily governed by the extent of clinker replacement, relative humidity and water to cement ratio. Concrete mixes with slag showed better carbonation resistance as compared to mixes containing other SCMs. No specific correlation can be observed between the carbonation coefficients and physical parameters of concrete (compressive strength and porosity), however, a reasonable correlation is observed between carbonation coefficients and chemical parameters (Total alkali content, reserve alkalinity and pH). An empirical equation is developed to estimate the carbonation depth for different cements for wide range of exposure conditions.
ISSN:0950-0618
1879-0526
DOI:10.1016/j.conbuildmat.2018.05.162