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http://dx.doi.org/10.4334/JKCI.2005.17.5.735

Analysis of Correlation between Compressive Strength, Void Ratio and Chloride Diffusion Coefficient of Concrete Using Various Kinds of Cement  

Yoon Eui-Sik (Dept. of Structural System and Site Evaluation, Korea Institute of Nuclear Safety)
Lee Taek-Woo (Dept. of Civil Engineering, Chungnam National University)
Park Seung-Bum (Dept. of Civil Engineering, Chungnam National University)
Publication Information
Journal of the Korea Concrete Institute / v.17, no.5, 2005 , pp. 735-742 More about this Journal
Abstract
The purpose of this study was to evaluate the salt water resistance of concrete depending on various types of cement. In this regard, 5 types of concrete were selected and their strength, void ratio and chloride ion diffusion characteristics were tested, and mutual correlation were analyzed. From the test results, the compressive strength and void ratio of concrete which using Type V cement was as good as Type I cement at long-term ages but the chloride diffusion coefficient of Type V cement was larger than Type I cement. And the concrete replacing some portion of the Type I cement with fly ash was superior in the cases of compressive strength, void ratio and the resistance of chloride ion permeation compared to the Type I cement with the lapse of ages. On the other hand, the compressive strength, the void ratio and the chloride diffusion coefficient of the concrete all indicated high levels of the correlation coefficient and the coefficient of determination regardless of the type of cement.
Keywords
seawater-resistance; compressive strength; void ratio; chloride diffusion coefficient; type V cement;
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1 日本土木學會, コンクリート標準施方書一施工編 第2章 海洋コンクリ-ト, 22.2 材料,1995
2 金成秀, 海洋環境下에 방치한 콘크리트의 劣化 및 鐵筋의 腐食, 防蝕에 대한 研究, 漢陽大学校 大学院 土木 工学科 博士学位 論文,1994
3 김은겸, 신치범, 이윤환, '콘크리트 構造物의 鹽化物 이온 浸透挙動解析', 콘크리트학회지, 9권 6호, 1997, 233-241
4 한국콘크리트학회, 콘크리트표준시방서-시공편 제31 장, 31.2 재료, 1996
5 Powers, T.C., Copelancl, L.E., Hayes, J.C., and Mann, H.M., 'Penmeability of Portland Cement Paste', Journal of ACI, Proceedings, Vol.26, No.23, 1954, pp.285-298
6 Carman, P.C., Flow of Gases through Porous Media, Academic, New York, 1956
7 박승범, 김도겸, '염해를 받는 철근콘크리트 구조물의 철근부식시기 예측시스템 개발에 관한 연구', 구조물진단학회논문집, 4권 1호, 2000, pp.121 -129
8 한국콘크리트학회, 콘크리트구조설계기준-제4장 사용성 및 내구성, 4.5 내구성설계, 2003. pp.75-80
9 윤의식, 김성욱, 고경택, 김상윤, '해안환경하에 노출된 콘크리트의 내구성에 미치는 시멘트 종류 및 플라이 애쉬 치환율의 영향', 대한토목학회 가을학술발표회 논문집(한국건설비전 2025), 2002, pp.634-637
10 오병환, 장승엽, 신용석, '콘크리트 내부염소이온에 의한 철근의 부식특성 및 임계 염소이온농도의 결정 연구', 콘크리트학회논문집, 11권, 3호, 1996, pp.193-203
11 박승범, 김도겸, '콘크리트 중의 염소이온 확산 특성에 관한 실험적 연구', 콘크리트학회논문집, 12권 1호, 2000, pp.33-44
12 한국수력원자력(주), 원전 구조물 사용시멘트의 내구성 향상 연구(최종보고서), 2002 pp.79-82
13 ACI 318 Committee, Building code Requirements, for Reinforced Concrete, ACI, 1999, pp.35-39
14 J.G.M. Wood, Prediction of Concrete Durability: Achieving Durable Concrete, E&FN SPON, The Geological Society, London, U.K, Nov. 1995, pp39-50
15 小林一輪, 白木亮司, 河合研至 '炭山化によって引き起 にされる中の鹽化物,硫責化合物及びアルが)化合物の 移動と濃縮', 日本コンクtトト工学論文集, Vol.1,No.2, 1990, pp.69-82
16 ACI 357R, Guide for the design and construction of fixed offshore concrete structures, ACI, 1984, pp.3-4
17 Anna, V. Saetta, Roberto V. Scotta, and Renato V. Vitaliani, 'Analysis of Chloride Diffusion into Partially Saturated Concrete', ACI Materials Journal, Sep.-Oct. 1993, pp.441- 451
18 Page, C.L., Short, N.R, and Tarras A.El., 'Diffusion of Chloride Ions in Hardened Cement Pastes', Cement and Concrete Research, Vol.11, No.3, 1981, pp.395-406   DOI   ScienceOn