Mobile QR Code QR CODE
Export citation EndNote
1 
1.Cho, J. W., “CO2 Reduction Cement”, Technologies, Magazine of the Korea Concrete Institute, Vol.23, No.6, 2011, pp.32-35.Google Search
2 
2.Park, C. B., Ryu, D. H., and Sae, C. H., “Hydration of High Volume Mineral Admixture Binder with Kind of Activators”, Journal of the Architectural Institute of Korea Structure & Construction, Vol.28, No.10, 2012, pp.89-96.Google Search
3 
3.Choi, S. W., Ryu, D. H., Kim, H. S., and Kim, G. Y., “Hydration Properties of Low Carbon type Low Heat Blended Cement”, Journal of the Korea Institute of Building Construction, Vol.13, No.3, 2013, pp.218-226.DOI
4 
4.Choi, Y. C., Moon, G. D., Kim, J. H., and Cho, Y. K., “Effect of Anhydrite on the Mechanical and Durability Properties of High Volume Slag Concrete”, Journal of the Korean Recycled Construction Resources Institute, Vol.2, No.3, 2014, pp.239-246.DOI
5 
5.Halit, Y., Mert, Y., Husyinn, Y., Serdar, A., and Selcuk, T., “Mechanical properties of reactive powder concrete containing high volumes of ground granulated blast furnace slag”, Cement & Concrete Composite, Vol.32, 2010, pp.639-648.DOI
6 
6.Choi, S., Lee, K. M., Jung, S. H., and Kim, J. H., “A Study on the Carbonation Characteristics of Fly Ash Concrete by Accelerated Carbonation Test”, Journal of the Korea Concrete Institute, Vol.21, No.4, 2009, pp.449-455.DOI
7 
7.Kim, J. P., “Selection of Portland Cement for Prevention of Sulfate Attack - Part 1 Sodium Sulfate Attack”, Journal of the Korea Concrete Institute, Vol.21, No.4, 2009, pp.441-447.DOI
8 
8.Bleszynski, R., Hooton, R. D., Thomas, M. D. A., and Rogers, C. A., “Durability of Ternary Blend Concrete with Silica Fume and Blast-Furnace Slag: Laboratory and Outdoor Exposure Site Studies”, ACI Materials Journal, Vol.99, No.5, 2002, pp.499-508.Google Search
9 
9.Song, H. W., Lee, C. H., Kim, J. H., and Ann, K. Y., “Chloride Penetration Resistance of Ternary Blended Concrete and Discussion for Durability”, Journal of the Korea Concrete Institute, Vol.20, No.4, 2008, pp.439-449.DOI
10 
10.Baek, C. W., Park, C. B., Choi, S. W., Jo, H. T., and Ryu, D. H., “Mechanical Properties of High Strength Concrete with High Volume Mineral Admixture”, Journal of the Korean Recycled Construction Resources Institute, Vol.2, No.3, 2014, pp.180-187.DOI
11 
11.Nordtest Method, NT-BUILD 492, Concrete, Mortar and Cement-Based Repair Materials, Chloride Migration Coefficient from Non-Steady-State Migration Experiments, Nordtest, Finland, 1999.Google Search
12 
12.JSTM C 7401, “Method of test for chemical resistance of concrete in aggressive solution”, 1999, pp.1-10.Google Search
13 
13.Monteny, J., Vincke, E., Beeldens, A., Taerwe, L., Van Gemert, D., and Verstraete, W., “Chemical, Microbiological, and in Situ Test Methods for Biogenic Sulfuric Acid Corrosion of Concrete”, Cement and Concrete Research, Vol.30, No.4, 2000, pp.623-634.DOI
14 
14.Bae, S. H., Park, J. I., and Lee, K. M., “Influence of Mineral Admixtures on the Resistance to Sulfuric Acid and Sulfate Attack in Concrete”, Journal of the Korea Concrete Institute, Vol.22, No.2, 2010, pp.219-228.DOI
15 
15.Shanahan, N., and Zayed, A., “Cement Composition and Sulfate Attack Part”, Cement and Concrete Research, Vol.37, No.4, 2007, pp.618-623.DOI
16 
16.Santhanam, M., Cohen, M. D., and Olek, J., “Me-chanism of Sulfate Attack : A Fresh Look Part 2 : Proposed Mechanisms”, Cement and Concrete Research, Vol.33, No.3, 2003, pp.341-346.DOI
17 
17.Maruya Tsuyoshi, “Construction of the analysis method on the movement of the chloride ions in the concrete”, Reaearch Report, The University of Tokyo, Japan, 1995, pp.41-45.Google Search