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http://dx.doi.org/10.4334/JKCI.2006.18.1.057

Durability and Crack Control of Concrete Using Fluosilicates Based Composite  

Yun, Hyun-Do (Dept. of Architectural Engineering, Chungnam National University)
Yang, Il-Seung (Dept. of Architectural Engineering, Chungnam National University)
Kim, Do-Su (Tripod Co. Inc.)
Khil, Bae-Su (Tripod Co. Inc.)
Han, Seung-Gu (Kyeryong Co. Inc.)
Publication Information
Journal of the Korea Concrete Institute / v.18, no.1, 2006 , pp. 57-64 More about this Journal
Abstract
The crack presented in concrete structures causes a structural defect, the durability decrease, and external damages etc. Therefore, it is necessary to improve durability through the effort to control the crack. Fluosilicic acid($H_2SiF_6$) is recovered as aqueous solution which absorbs $SiF_4$ produced from the manufacturing of industrial-graded $H_3PO_4$ or HF. Generally, fluosilicates prepared by the reaction between $H_2SiF_6$ and metal salts. Addition of fluosilicates to cement endows odd properties through unique chemical reaction with the fresh and hardened cement. Mix proportions for experiment were modulated at 0.45 of water to cement ratio and $0.0{\sim}2.0%$ of adding ratio of fluosilicate salt based inorganic compound. To evaluate correlation of concrete strength and adding ratio of fluosilicate salt based inorganic compound, the tests were performed about design strength(21, 24, 27 MPa) with 0.5% of adding ratio of fluosilicate salt based inorganic compound. Applications of fluosilicate salt based inorganic compound to reduce cracks resulted from plastic and drying shrinkage, to improve durability are presented in this paper. Durability was evaluated as neutralization, chloride ion penetration depth, freezing thawing resistant tests and weight loss according reinforcement corrosion. It is ascertained that the concrete added fluosilicate salt based inorganic compound showed m ability to reduce the total area and maximum crack width significantly as compared non-added concrete. In addition, the durability of concrete improved because of resistance to crack and watertightness by packing role of fluosilicate salt based inorganic compound obtained and pozzolanic reaction of soluble $SiO_2$ than non-added concrete.
Keywords
fluosilicate salt based inorganic compound; crack reduction; drying shrinkage; water tightness; durability;
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Times Cited By KSCI : 2  (Citation Analysis)
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