Modeling of Carbonation based on Thermo-Hygro Physics with Strong Coupling of Mass Transport and Equilibrium in Micro-pore Structure of Concrete
Author:
Affiliation:
1. Department of Civil Engineering, University of Tokyo, Japan.
2. Department of Civil Engineering, Faculty of Engineering, Gunma University, Japan.
Publisher
Japan Concrete Institute
Subject
General Materials Science,Building and Construction
Link
https://www.jstage.jst.go.jp/article/jact/6/2/6_2_303/_pdf
Reference14 articles.
1. Houst, Y. F. and Wittmann, F. H. (1994). “Influence of porosity and water content on the diffusivity of CO2 and O2 through hydrated cement paste.” Cement and Concrete Research, 24(6), 1165-1176.
2. Ishida, T. and Maekawa, K. (2001). “Modeling of pH profile in pore water based on mass transport and chemical equilibrium theory.” Concrete Library International, JSCE, 37, 131-146.
3. Ishida, T., Maekawa, K. and Soltani, M. (2004). “Theoretically identified strong coupling of carbonation rate and thermodynamic moisture state in micropores of concrete.” Journal of Advanced Concrete Technology, 2(2), 213-222.
4. Ishida, T., Maekawa, K. and Kishi, T. (2007). “Enhanced modeling of moisture equilibrium and transport in cementitious materials under arbitrary temperature and relative humidity history.” Cement and Concrete Research, 37, 565-578.
5. Kroone, B. and Crook, D. N. (1961). “Studies of pore size distribution in mortars.” Magazine of Concrete Research, 13(39), 127-132.
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