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Journal of the Korea Concrete Institute

ISO Journal TitleJ Korea Concr Inst.
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  • KCI Accredited Journal

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  3. 2015-08 (Vol.27 No.4)
  4. 10.4334/JKCI.2015.27.4.343
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1 
1.Lee, B. C., Jung, S. H., Kim, J. H., and Kwon, S. J., “Evaluation for properties of domestic pond ash aggregate and durability performance in pond ash concrete,” Journal of the Korea Concrete Institute, Vol.23, No.3, 2011, pp.311-320 (in Korean).DOI
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2.Lee, B. C., Jung, S. H., Chae, S. T., and Kwon, S. J., “Evaluation for applicability of reinforced concrete structure with domestic pond ash,” Journal of the Korea Concrete Institute, Vol.23, No.5, 2011, pp.541-550 (in Korean).DOI
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3.Antiohos, S. K., Papadakis, V. G., Chaniotakis, E., and Tsimas, S., “Improving the performance of ternary blended cements by mixing different types of fly ashes,” Cement and Concrete Research, Vol.37, No.6, 2007, pp.877-885.DOI
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4.Kim, J. S., Yoo, K. S., Kim, T. H., and Park, J. H., “A Bond performance evaluation of geopolymer concrete by pull-ot test,” KCI Spring conference, Vol.26, No.1, 2014, pp. 591-592 (in Korean).Google Search
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5.Kim, S. H., Ryt, G. S., Koh, K. T., and Lee, J. H., “Micro-Structure Analysis of Fly Ash Based Geopolymer,” KCI fall conference, Vol.24, No.2, 2012, pp.843-844 (in Korean).Google Search
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6.Chindaprasirt, P., Jaturapitakkul, C., and Sinsiri, T., “Effect of fly ash fineness on compressive strength and pore size of blended cement paste,” Cement and Concrete Composites, Vol.27, No.4, 2005, pp.425-428.DOI
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7.Chindaprasirt, P. and Rukzon, S., “Strength, porosity and corrosion resistance of ternary blend Portland cement, rice husk ash and fly ash mortar,” Construction and Building Materials, Vol.22, No.8, 2008, pp.1601-1606.DOI
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8.Erdem, T. K. and Kirca, O., “Use of binary and ternary blends in high strength concrete,” Construction and Building Materials, Vol.22, No.7, 2008, pp.1477-1483.DOI
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9.Mullick, A. K., “Performance of concrete with binary and ternary cement blends,” The Indian Concrete Journal, Vol.81, No.1, 2007, pp.15-22.Google Search
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10.Muralidharan, S., Saraswathy, V., Merlin Nima, S. P., and Palaniswamy, N., “Evaluation of a composite corrosion inhibiting admixtures and its performance in Portland pozzolana cement,” Journal of Materials Chemistry and Physics, Vol.86, No.2-3, 2004, pp.298-306.DOI
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11.Umoh, A. A., Olaniyi, A., Babafemi, A. J., and Femi, O. O., “Assessing the mechanical performance of ternary blended cement concrete Incorporating periwinkle shell and bamboo leaf ashes,” Civil and Environmental Research, Vol.3, No.5, 2013, pp.27-36.Google Search
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12.Ramznianpour, A., Mahdikhani, M., and Ahmadibeni, G., “The effect of rice husk ash on mechanical properties and durability of sustainable concretes,” International Journal of Civil Engineering, Vol.7, No.2, 2009, pp.83-91.Google Search
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13.Rukzon, S., Chindaprasirt, P., and Mahachai, R., “Effect of grinding on chemical and physical properties of rice husk ash,” International Journal of Minerals, Metallurgy and Materials, Vol.16, No.2, 2009, pp.242-247.DOI
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14.Saraswathy, V., and Song, H. W., “Corrosion performance of rice husk ash blended concrete,” Construction and Building Materials, Vol.21, No.8, 2007, pp.1779-1784.DOI
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15.Sugita, S., Yu, Q., Shoya, M, Tsukinaga, Y., and Isojima, Y., “The Concrete Way to Development,” FIP Symposium 1997, Johannesburg, South Africa, Vol.2, 1997, p.621.Google Search
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16.Song, H. W., Jang, J. C., Saraswathy, V., and Byun, K. J., “An estimation of the diffusivity of silica fume concrete,” Building and Environment, Vol.42, No.3, 2006, pp.1348-1354.Google Search
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17.Song, H. W., Pack, S. W., Nam, S. H., Jang, J. C., and Saraswathy, V., “Estimation of the permeability of silica fume cement concrete,” Construction and Building Materials, Vol.24, No.3, 2010, pp.315-321.DOI
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18.Zhang, M. H. and Gjørv, O. E., “Effect of silica fume on pore structure and chloride diffusivity of low porosity cement pastes,” Cement and concrete Research, Vol.21, No.6, 1991, pp.1006-1014.DOI
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19.Song, H. W., Kwon, S. J., Byun, K. J., and Park, C. K., “Predicting carbonation in early-aged cracked concrete,” Cement and Concrete Research, Vol.36, No.5, May, 2006, pp.979-989.DOI
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20.Song, H. W., Pack, S. W., Lee, C. H., and Kwon, S. J., “Service life prediction of concrete structures under marine environment considering coupled deterioration,” Journal of Restoration of Buildings and Monuments, Vol.12, No.4, 2006, pp.265-284.Google Search
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21.Song, H. W. and Kwon, S. J., “Permeability characteristics of carbonated concrete considering capillary pore structure,” Cement and Concrete Research, Vol.37, No.6, June, 2007, pp.909-915.DOI
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22.Saraswathy, V., Muralidharan, S., Kalyanasundaram, R. M., Thangavel, K., and Srinivasan, S., “Evaluation of a composite corrosion inhibiting admixture and its performance in concrete under macro cell corrosion conditions,” Cement and Concrete Research, Vol.31, No.5, 2001, pp.789-794.DOI
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23.Saraswathy, V., Muralidharan, S., Thangavel, K., and Srinivasan, S., “Activated fly ash cements: Tolerable limit of replacement for durable steel reinforced concrete,” Advances in Cement Research, Vol.14, No.1, 2002, pp.9-16.DOI
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24.Saraswathy, V., Muralidharan, S., Thangavel, K., and Srinivasan, S., “Influence of activated fly ash on corrosion resistance and strength of concrete,” Cement and Concrete Composites, Vol.25, No.7, 2003, pp.673-680.DOI
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25.Saraswathy, V., Muralidharan, S., and Srinivasan, S., “Electrochemical studies on the corrosion performance of activated fly ash blended cements,” Materials Engineering, Vol.14, No.3, 2003, pp.261-283.Google Search
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26.Saraswathy, V. and Song, H. W., “Studies on the corrosion resistance of reinforced steel in concrete with ground granulated blast-furnace slag–An overview,” Journal of Hazardous Materials, Vol.138, No.2, 2006, pp.226-233.DOI