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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. 2018-04 (Vol.30 No.2)
  4. 10.4334/JKCI.2018.30.2.157
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1 
Bilodeau, A. and Malhotra, V. M. (2000) High-volume Fly Ash System. Concrete Solution for Sustainable Development. ACI Materials Journal 97(1), 41-48.Google Search
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4 
Cho, M. S., Song, Y. C., Ryu, G. S., Koh, K. T., Kim, S. W., and Lee, J. H. (2002) Durability Evaluation of Concrete Using Fly Ash, Proceedings of the Korea Concrete Institute Autumn 755-760. (In Korean)Google Search
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12 
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14 
Kim, W. J. and Kim, K. S. (2002), New Concept of Concrete Materials in the IT Era, Magazine of the Korean Concrete Institute 14(3), 28-34. (In Korean)DOI
15 
Kim, W. J., Kim, S. T., Park, S. J., Ghim, S. Y., and Chun, W. Y. (2009) A Study on the Development of Self-Healing Smart Concrete Using Microbial Biomineralization, Journal of the Korean Concrete Institute 21(4), 501-511. (In Korean)Google Search
16 
Kim, W. J., Lee, Y. D., Park, H. G., and Lee, J. S. (2011) Research on the Mock-up for CFT Using 100 MPa High Strength Concrete and 800 MPa High Strength Steel, The Korean Institut of Building Constrction 11(1), 35-37. (In Korean)Google Search
17 
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19 
Koo, B. M., Byun, K. J., and Song, H. W. (2004) A Study on Sensitivity Anlaysis of Life-Cycle Cost of Concrete Bridges, Proceeding of the Korea Concrete Institute Autumn, 795-798. (In Korean)Google Search
20 
Park, J. H., Bang, S. Y., Ahn, T. H., and Shim, K. B. (2015) Field Application of Inorganic Repair Mortars with Self-Healing Capability, Proceeding of the Korea Concrete Institute Autumn, 153-154. (In Korean)Google Search
21 
Park, K. H. and Sun, J. W. (2012) Life Cycle Cost Anlaysis of Concrete Bridges in Maintenance Phase, Proceeding of the Korea Concrete Institute Autumn, 429-430. (In Korean)Google Search
22 
Park, S. J. and Ghim, S. Y. (2012) Applications and Prospects of Calcium Carbonate Forming Bacteria in Construction Materials, Journal of Microbiology and Biotechnology 40(3), 169-179. (In Korean)DOI
23 
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24 
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25 
Ryu, G. S., Koh, K. T., and Lee, J. H. (2013) Strength Devel-opment and Durability of Geopolymer Mortar Using the Combined Fly Ash and Blast-Furnace Slag, Journal of the Korean Recycled Construction Resources Institute 1(1), 35-41. (In Korean)DOI
26 
Shah, S. P. (1990) Determination of Fracture Parameters (KIcs and CTODc) of Plain Concrete Using Three-point Bend Tests. Materials and Structures 23(6), 457-460.DOI
27 
Sohn, Y. S., Wang, H., Lee, G. S., and Lee, S. H. (2006) An Application of 150 MPa Ultra High Strength Concrete on a Residential-Commercial Building, Journal of the Korea Concrete Institute 18(5), 59-64. (In Korean)Google Search
28 
TC162-TDF, RILEM. Test and design methods for steel fibre reinforced concrete: Bending test. Mater Struct, 2000, 33: 3-5.DOI
29 
Termkhajornkit, P., Nawa, T., and Kurumisawa, K. (2006) Effect of Water Curing Conditions on the Hydration Degree and Compressive Strengths of Fly Ash-Cement Paste. Cement and Concrete Composites 28(9), 781-789.DOI
30 
Van Breugel, K. (2003) Self-healing en Vloeistofdichtheid, Cement 7, 85-89.Google Search
31 
White, S. R., Sottos, N. R., Geubelle, P. H., and Moore, J. S. (2001) Autonomic Healing of Polymer Composites. Nature, 409 (6822), 794.DOI