Mobile QR Code QR CODE
Export citation EndNote
1 
Shin, S. W., Kwon, Y. J., Kim, W. J., Song, H., Shin, Y. S., Yoo, S. H., Lee, S. H., Lee, K. D., Choi, K. H., and Hong, S. G., Fire Safety Design Guidelines of High Strength Concrete Structures, Architectural Institute of Korea, Ki Moon dang, Korea, 2008, pp. 1-50.Google Search
2 
Ha, J. H., Yi, N. H., Kim, S. B., Choi, J. K., and Kim, J. H. J., “Experimental Study on Blast Resistance Improvement of RC Panels by FRP Retrofitting”, Journal of the Korea Concrete Institute, Vol. 22, No. 1, 2010, pp. 93-102.DOI
3 
Won, J. P., Choi, S. W., Park, C. G., and Park, H. K., “Tempe-rature Distribution of Wet-mixed High Strength Sprayed Polymer Mortar for Fire Resistance of Tunnel”, Journal of Korean Society of Civil Engineers, Vol. 26, No. 4C, 2006, pp. 283-290.Google Search
4 
Chang, S. H., Choi, S. W., Kwon, J. W., and Bae, G. J., “Evaluation of Fire-Induced Damage to Structural Members in Tunnels”, Journal of Korean Society of Civil Engineers, Vol. 26, No. 3C, 2006, pp. 219-228.Google Search
5 
Kang, J. Y., Yoon, H. A., Kim, W. S., Kodur, V., Shin, Y. S., Kim, H. S., “Effect of Wall Thickness on Thermal Behaviors of RC Walls Under Fire Conditions”, International Journal of Concrete Structures and Materials, Vol. 10, No. 3, 2016, pp. S19-S31.DOI
6 
Hyde, D. W., Fundamental of Protective Design for Conven-tional Weapons, CONWEP (Conventional Weapons Effects), TM5-8511-1, United States Army Waterway Experiment Station, Vicksburg, Miss., 1992.Google Search
7 
Baker, W. E., Explosions in Air, Wilfred Baker Engineering, San Antonio., 1973.Google Search
8 
TM5-855-1 / AFPAM32-1147 / NAVFACP-1080 / DAHSCWE-MAN-97 Design and Analysis of Hardened Structures to Conventional Weapons Effects, Joint Departments of the Army, Air Force, Navy and the Defense Special Weapons Agency, Washington, DC., 1997.Google Search
9 
Kakogiannis, D., Pascualena, F., Reymen, B., Pyl, L., Ndambi, J. M., Segers, E., Lecompte, D., Vantomme, J., and Krauth-ammer, T., “Blast Performance of Reinforced Concrete Hollow Core Slabs in Combination with Fire: Numerical and Experimental Assessment”, Fire Safety Journal, Vol. 57, 2013, pp. 69-82.DOI
10 
Huo, J., Zheng, Q., and Chen, B., “Tests on Impact Behaviour of Micro-Concrete-Filled Steel Tubes at elevated Temperatures up to 400°C”, Materials and Structures, Vol. 42, 2009, pp. 1325-1334,DOI
11 
Schmeider, U., “Properties of Materal at High Temperatures-Concrete”, 2nd edn, RILEM Report, Gesamthochule Kassel, Germany, 1986, pp. 39-41.Google Search
12 
Jeon, S. J., Jim, B. M., and Kim, Y. J., “Assessment of the Fire Resistance of a Nuclear Power Plant Exposed to Jet Fuel Fire”, Civil Expo 2011, Korean Society of Civil Engineers, Il-San KINTEX, 2011, pp. 419-422.Google Search
13 
Choi, J. H., Choi, S. J., Cho, C. M., Kim, T. K., and Kim, J. H. J., “Experimental Evaluation of Bi-directionally Unbonded Prestressed Concrete Panels Blast resistance Behavior under Blast Loading Scenario”, Journal of the Korea Concrete Institute, Vol. 28, No. 6, 2016, pp. 673-683.DOI
14 
International Tunnelling Association, “Guidelines for Structural Fire Resistance for Road Tunnels”, Working Group, No. 6, ITA, 2004, pp. 1.1-2.9.Google Search