Pore Filling Effect of Forced Carbonation Reactions Using Carbon Dioxide Nanobubbles

Various methods for repairing and modifying concrete surfaces have been proposed and applied to improve the durability of existing concrete structures. Surface modification through forced carbonation is a method of densification that forms calcium carbonate in the pores on the surface of concrete to...

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Published inMaterials Vol. 13; no. 19; p. 4343
Main Authors Kim, Jihoon, Kitagaki, Ryoma, Choi, Heesup
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 29.09.2020
MDPI
Subjects
Aqueous solutions
CaCO3
Calcium carbonate
Carbon dioxide
Carbonation
Cement
cementitious materials
Concrete
Concrete construction
Concrete structures
Densification
Durability
forced carbonation
Hydration
Mortars (material)
nanosized ultrafine CO2 bubble
Porous materials
surface modification
Water-cement ratio
Japan
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Abstract Various methods for repairing and modifying concrete surfaces have been proposed and applied to improve the durability of existing concrete structures. Surface modification through forced carbonation is a method of densification that forms calcium carbonate in the pores on the surface of concrete to improve its durability. In this study, to evaluate the applicability of this surface modification method to existing buildings, a series of experiments was conducted in which mortar specimens were repeatedly immersed in a carbon dioxide nanobubble aqueous solution. By evaluating the weight change and absorption rate, it was determined that the higher the water/cement ratio of the mortar specimen, the higher the pore filling effect owing to immersion in the carbon dioxide nanobubble aqueous solution. In addition, the effect of clogged pores generated by the precipitation of calcium carbonate was confirmed, and it was found that the higher the water/cement ratio of the mortar specimen, the higher the pore filling effect due to clogging. We believe that our findings contribute to the development of research and construction practices associated with concrete repair and restoration.
AbstractList Various methods for repairing and modifying concrete surfaces have been proposed and applied to improve the durability of existing concrete structures. Surface modification through forced carbonation is a method of densification that forms calcium carbonate in the pores on the surface of concrete to improve its durability. In this study, to evaluate the applicability of this surface modification method to existing buildings, a series of experiments was conducted in which mortar specimens were repeatedly immersed in a carbon dioxide nanobubble aqueous solution. By evaluating the weight change and absorption rate, it was determined that the higher the water/cement ratio of the mortar specimen, the higher the pore filling effect owing to immersion in the carbon dioxide nanobubble aqueous solution. In addition, the effect of clogged pores generated by the precipitation of calcium carbonate was confirmed, and it was found that the higher the water/cement ratio of the mortar specimen, the higher the pore filling effect due to clogging. We believe that our findings contribute to the development of research and construction practices associated with concrete repair and restoration.
Author Kitagaki, Ryoma
Kim, Jihoon
Choi, Heesup
AuthorAffiliation 1 Department of Civil Engineering and Architecture, Muroran Institute of Technology, Hokkaido 0508585, Japan; bmjhun@mmm.muroran-it.ac.jp
2 Division of Human Environmental System, Hokkaido University, Hokkaido 0600808, Japan
3 Department of Civil and Environmental Engineering, Kitami Institute of Technology, Hokkaido 0908507, Japan
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StartPage 4343
SubjectTerms Aqueous solutions
CaCO3
Calcium carbonate
Carbon dioxide
Carbonation
Cement
cementitious materials
Concrete
Concrete construction
Concrete structures
Densification
Durability
forced carbonation
Hydration
Mortars (material)
nanosized ultrafine CO2 bubble
Porous materials
surface modification
Water-cement ratio
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Title Pore Filling Effect of Forced Carbonation Reactions Using Carbon Dioxide Nanobubbles
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