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1.Kim, S. H., Youn, G. H., Kim, Y. C., Kim, J. H., and Yun, H. D., “Development of Sprayable Strain-Hardening Cement Composite (SHCC) for Joint between Existing R/C Building and Seismic Retrofit Elements”, Journal of the Korean Institute of Educational Facilities, Vol.90, 2012, pp.29-36 (in Korean).DOI
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2.Yun, H. D., Kim, Y. C., and Kim, S. W., “Effect of Rein-forcing Fiber Types on the Behavior Characteristics of SHCCs”, Journal of the Architectural Institute of Korea: Structure & Construction, Vol.24, No.5, 2008, pp.141-148 (in Korean).Google Search
3 
3.Kim, S. W., Cha, J. H., Kim, Y. Y., and Yun, H. D., “Mechanical Properties of Strain Hardening Cement-Based Composite (SHCC) with Recycled Materials”, Journal of the Korea Concrete Institute , Vol.22, No.5, 2010, pp.727-736 (in Korean).DOI
4 
4.Lee, Y. O., and Yun, H. D., “Effects of Expansive Admixture on the Mechanical Properties of Strain-Hardening Cement Composite (SHCC)”, Journal of the Korea Concrete Institute, Vol.22, No.5, 2010, pp.617-624 (in Korean).DOI
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5.Kim, Y. R., Jung, Y. H., Lee, S. H., Kim, D. S., Khil, B. S., and Kim, W. G., “The Characteristics of Hydration Heat Generation of Low Heat Concrete using Hydration Heat Reducing Admixtures”, Journal of the Korea Concrete Institute , Vol.18, No.2, 2006, pp.709-712 (in Korean).Google Search
6 
6.Kim, G. Y., Koo, K. M., Shin, K. S., Lee, E. B., Kang, Y. W., and Tohru, T., “Reduction of Hydration Heat Velocity and Autogenous Shrinkage according to Retardation of Hydration of High Strength Mass Concrete”, Journal of the Architectural Institute of Korea: Structure&Construction, Vol.27, No.1, 2011, pp.137-144 (in Korean).Google Search
7 
7.Yang, I. S., Yun, H. D., Kim, D. S., Khil, B. S., and Han, S. G., “Experimental Study on Engineering Properties of Concrete Using Fluosilicates Based Composite”, Korea Concrete Institute Structure Journal, Vol.17, No.5, 2005, pp.769-774 (in Korean).DOI
8 
8.Khil, B. S., “A Study on the Reduction of Thermal Crack of Mass Concrete by Hydration Heat Control Material”, Chungnam National University, 2012.Google Search
9 
9.KS F 2403, “Standard Test Method for Making and Curing Concrete Specimens”, Korea Standards Association, 2014 (in Korean).Google Search
10 
10.KS F 2405, “Standard Test Method for Compressive Strength of concrete”, Korea Standards Association, 2014 (in Korean).Google Search
11 
11.KS F 2408, “Method of Test for Flexural Strength of Concrete”, Korea Standards Association, 2000 (in Korean).Google Search
12 
12.JSCE-E-531, “Test method for tensile properties of continuous fiber reinforcing materials”, Japan Society of Civil Engineers (JSCE), 1999.Google Search
13 
13.ASTM C1018, “Standard Test Method for Flexural Toughness and First-Crack Strength of Fiber-Reinforced Concrete (Using Beam with Third-Point Loading)”, American Society for Testing Materials (ASTM), 1997.Google Search
14 
14.Choi, W. C., Khil, B. S., Chae, Y. S., Liang, Q. B., and Yun, H. D., “Feasibility of Using Phase Change Materials to Control the Heat of Hydration in Massive Concrete Structures”, The Scientific World Journal, Vol.2014, 2014, pp.1-6.DOI
15 
15.Li, V. C., “Large Volume, High-Performance Applications of Fiber in Civil Engineering”, Journal of Applied Polymer Science, Vol.83, 2002, pp.660-686.DOI