Associate Professor
Supervisor of Master's Candidates
Title of Paper:Prediction of Concrete Coefficient of Thermal Expansion by Effective Self-Consistent Method Considering Coarse Aggregate Shape
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Date of Publication:2018-12-01
Journal:JOURNAL OF MATERIALS IN CIVIL ENGINEERING
Included Journals:SCIE
Volume:30
Issue:12
ISSN No.:0899-1561
Key Words:Concrete; Coefficient of thermal expansion; Coarse aggregate shape; Effective self-consistent model; Sensitivity analysis
Abstract:Thermal cracking is a perennial concern for large-volume concrete projects; for instance, dams and foundations. The concrete coefficient of thermal expansion (CTE) is well recognized as a key parameter influencing thermal cracking of concrete. Aggregates are volumetrically the predominant constituent of concrete. Aggregate shape varies due to rock type and manufacturing methods. However, its effect on concrete CTE has rarely been studied. This study develops an analytical approach based on effective self-consistent theory to predict concrete CTE considering coarse aggregate shape. The analytical model is validated with laboratory tests. It is found that coarse aggregate shape has little effect on concrete CTE. The influences of other factors on concrete CTE are also studied, including coarse aggregate gradation and type, coarse aggregate, and cement mortar CTEs. (C) 2018 American Society of Civil Engineers.
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