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http://dx.doi.org/10.5345/JKIBC.2022.22.5.425

Durability Evaluation of High-Performance, Low-Heat Self-Compacting Concrete for Foundation of Tall Buildings  

Kim, Young-Bong (Business Operation Division, Korea Conformity Laboratories)
Park, Dong-Cheon (Department of Architecture and Ocean Space, Korea Maritime and Ocean University)
Publication Information
Journal of the Korea Institute of Building Construction / v.22, no.5, 2022 , pp. 425-430 More about this Journal
Abstract
Concrete used for the foundation of high-rise buildings is often placed through in an integrated pouring to ensure construction efficiency and quality. However, if concrete is placed integrally, there is a high risk of temperature cracking during the hydration reaction, and it is necessary to determine the optimal mixing design of high-performance, high-durable concrete through the replacement of the admixture. In this study, experiments on salt damage, carbonation, and sulfate were conducted on the specimen manufactured from the optimal high-performance low-heating concrete combination determined in the author's previous study. The resistance of the cement matrix to chlorine ion diffusion coefficient, carbonation coefficient, and sulfate was quantitatively evaluated. In the terms of compression strength, it was measured as 141% compared to the structural design standard of KCI at 91 days. Excellent durability was expressed in carbonation and chlorine ion diffusivity performance evaluation. In particular, the chlorine ion diffusion coefficient, which should be considered the most strictly in the marine environment, was measured at a value of 4.09×E-12m2/y(1.2898×E-10m2/s), and is expected to be used as a material property value in salt damage durability analysis. These results confirmed that the latent hydroponics were due to mixing of the admixture and high resistance was due to the pozzolane reaction.
Keywords
high performance concrete; durability; salt attack; carbonation; sulfate resistance;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
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