Development of empirical models for chloride binding in cementitious systems containing admixed chlorides

•Binding behavior of admixed chlorides in various cementitious systems are studied.•Free chlorides were measured using water-soluble and pore press testing procedures.•An interaction between w/b, SCM, SCM level, and admixed chloride level exists.•Three empirical binding isotherms are developed.•Chlo...

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Bibliographic Details
Published inConstruction & building materials Vol. 189; pp. 157 - 169
Main Authors Trejo, David, Shakouri, Mahmoud, Vaddey, Naga Pavan, Isgor, O. Burkan
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 20.11.2018
Reed Business Information, Inc. (US)
Subjects
Admixed chlorides
Analysis
Building materials durability
Cements (Building materials)
Chemical properties
Chloride binding
Chlorides
Concrete durability
Corrosion
Corrosion (Chemistry)
Educational assessment
Mechanical properties
Reinforced concrete
Silicon dioxide
Steel corrosion
United States
Chloride binding
Admixed chlorides
Concrete durability
Corrosion
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Summary:•Binding behavior of admixed chlorides in various cementitious systems are studied.•Free chlorides were measured using water-soluble and pore press testing procedures.•An interaction between w/b, SCM, SCM level, and admixed chloride level exists.•Three empirical binding isotherms are developed.•Chloride testing method influences the concentration of measured bound chlorides. The binding of admixed chlorides in the concrete can delay the corrosion of reinforcing steel and extend the service life of reinforced concrete structures. Although extensive research has been conducted to study the chloride binding capacity of cementitious systems subject to external chlorides, there is little information available on the chloride binding capacity of cementitious systems containing admixed chlorides. In this paper, the chloride binding capacity of several cementitious systems containing ordinary portland cement (OPC), Type C and F fly ashes, slag, and silica fume with different replacement levels is studied using acid-soluble, water-soluble, and pore-pressed testing procedures. In addition, the influence of water-to-binder ratio and admixed chloride levels on the percentages of bound chlorides is explored and discussed. The experimental results indicate that, on average, the concentration of pore-pressed chlorides is significantly lower than the concentration of water-soluble chlorides. Furthermore, the estimated bound chlorides using the pore-pressed chlorides are significantly higher than the bound chloride estimated using water-soluble chlorides. Results show that the Langmuir isotherm can be used to explain the relationship between free and bound chlorides in OPC paste samples containing admixed chlorides. Results of this study also suggest that chloride testing procedures can be very influential in quantifying the concentration of bound chlorides. Therefore, there is a need to standardize the process used for measuring the chlorides in cementitious systems for assessing chloride binding.
ISSN:0950-0618
1879-0526
DOI:10.1016/j.conbuildmat.2018.08.197