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1.Kang, S.-H., and Hong, S. G., “Performance of Fresh and Hardened Ultra High Performance Concrete without Heat Treatment”, Journal of the Korea Concrete Institute, Vol. 26, No.1, 2014, pp.23-34 (in Korean).DOI
2 
2.Koh, K.T., Park, J.J., Ryu, G.S., and Kang, S.T., “Effect of the Compressive Strength of Ultra-High Strength Steel Fiber Reinforced Cementitious Composites on Curing Method”, Journal of the Korean Society of Civil Engineers, Vol.27, No.3, 2007, pp.427-432 (in Korean).Google Search
3 
3.Koh, K.T., Ryu, G.S., Park, J.J., and Kim, S.W., “Material Characteristics of K-UHPC”, Proceedings of the Korean Concrete Institute, Vol.24, No.2, 2012, pp.861-862 (in Korean).Google Search
4 
4.Lee, J.H., Hong, S.G., Joh, C., Kawhk, I., and Lee, J.W., “Biaxial Tension-Compression-Strength of UHPC in Structural Panels”, Proceedings of the Korean Concrete Institue, Vol. 27, No.2, 2015, pp.213-214 (in Korean).Google Search
5 
5.Pyo, S., Sherif, El-Tawil, S., and Naaman, A.E., “Chaarac-teristics of Ultra High Performance Concrete (UHPC) under Tension at High Strain Rates”, Proceedings of the Korean Concrete Institute, Vol.26, No.2, 2014, pp.521-522 (in Korean).Google Search
6 
6.Kim, G.-Y., Nam, J.-S., and Miyauchi, H., “Evaluation on Impact Resistance Performance of Fiber Reinforced Mortar under High-Velocity Impact of Projectile”, Journal of Korea Architecture Institute, Vol.27, No.9, Sep. 2011, pp.101-108 (in Korean).Google Search
7 
7.Jang, S.-J., Son, S.-K., Kim, Y.-H., Kim, G.-Y., and Yun, H.-D., “Face Damage Characteristic of Steel Fiber-Reinforced Concrete Panels under High-Velocity Globular Projectile Impact”, Journal of the Korea Concrete Institute, Vol.27, No.4, 2015, pp.411-418 (in Korean).DOI
8 
8.Koh, K.T., Ryu, G.S., Park, J.J., and Kim, S.W., “Material Characteristics of K-UHPC”, Proceedings of Korean Concrete Institute, Vol.24, No.2, pp.861-862 (in Korean).Google Search
9 
9.http://www.shooterscalculator.com/Google Search
10 
10.Korea Agency for Technology and Standards, Concrete Compressive Strength Test Method, KS F 2405:2010, Bulltin No. 2010-0654, Korea Standards Association, 2010 (in Korean).Google Search
11 
11.Korea Agency for Technology and Standards, Soundproof panel - Metallic, KS F 4770-1:2015, Korea Standards Association, 2015 (in Korean).Google Search
12 
12.ASTM International, Standard Test Method for Performance of Wood and Wood-Based Floor and Roof Sheathing Under Concentrated Static and Impact Loads (ASTM E661-03), American Society for Testing and Materials, 2015.Google Search
13 
13.Kim, G.-Y., Nam, J.-S., and Miyauchi, H., “Evaluation on Impact Resistance Performance of Fiber Reinforced Mortar under High-Velocity Impact of Projectile”, Journal of Korea Architecture Institute, Vol.27, No.9, Sep. 2011, pp.101-108 (in Korean).Google Search
14 
14.Li, Q.M., Reid, S.R., and Ahmad-Zaidi, A.M., “Critical Impact Energies for Scabbing and Perforation of Concrete Target”, Nuclear Engineering and Design, Vol.236, No.11, 2006, pp.1140-1148.DOI
15 
15.Li, Q. M., and Tong, D. J., “Perforation Thickness and Ballistic Limit of Concrete Target Subjected to Rigid projectile Impact”, ASCE Jounral of Engineering Mechanics, Vol.29, No.9, 2003, pp.1083-1091.DOI
16 
16.Yankelevsky, D.Z. “Local Response of Concrete Slabs to Low Velocity Missile Impact”, International Journal of Impact Engineering, Vol.19, No.4, 1997, pp.331-343.DOI
17 
17.Yang, I.Y., Yang, D.R., and Lee, C.M., Impact Engineering, Won Chang Publishing Co. Ltd., 2010, p.371 (in Korean).Google Search
18 
18.Beppu, M., Miwa, M., Katayama, M., and Ohno, T., “Damage Evaluation of Concrete Plates by High-Velocity Impact”, International Journal of Impact Engineering, Vol.35, 2008, pp.1419-1426.DOI
19 
19.Kim, H.-S., Kim, G.Y., Koo, K.-M., Cheo, G.-C., Yoo, J.-C., and Kim, M.-H., “Evaluation of Local Failure of Concrete by High-Velocity Impact”, Proceeding os Architectural Institute of Korea, Vol.33, No.2, 2013, pp.617-618.Google Search