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1 
ASCE (1992) Structural Fire Protection (ASCE Manual and Reports on Engineering Practice No.78) American Society of Civil Engineering, T. T. Lie.Google Search
2 
Bruch, J. C. and Zyvoloski, G. (1974) Transient Two-Dimen-sional Heat Conduction Problems Solved by The Finite Element Method. International Journal for Numerical Method in Engineering 8(3), 481-494.DOI
3 
BSI (2004a) Eurocode 2: Design of Concrete Structures Part 1-2: General Rules-structural Fire Design.Google Search
4 
BSI (2004b) Eurocode 4: Design of Composite Steel and Concrete Structures Part 1-2, Structural Fire Design.Google Search
5 
Choo, Y. H. and Kim, W. J. (2003) A Study on the 2D Thermal Analysis with Material Characteristics of Elements in Buil-dings. Journal of the Architectural Institute of Korea Structure and Construction 19(2), 157-164. (In Korean)Google Search
6 
Han, B. C., Kim, Y. Y., Kwon, Y. J., and Cho, C. G. (2012) Heat Transfer Analysis and Experiments of Reinforced Concrete Slabs Using Galerkin Finite Element Method. Journal of the of Korea Concrete Institute 24(5), 567-575. (In Korean)DOI
7 
Han, B. C., Kwon, Y. J., Kim, J. H., Shin, Y. S., and Choi, E. G. (2007) Temperature-Dependency Thermal Properties and Transient Thermal Analysis of Structural Frames Exposed to Fire. Journal of the of Korea Concrete Institute 19(3), 283-292. (In Korean)DOI
8 
Harada, K. (1992) A Study on the Prediction of temperature Rise of Concrete in Fire-Resistance Test. Ph.D Thesis. Kyoto University.Google Search
9 
Harmathy, T. Z. (1970) Thermal Properties of Concrete at Elevated Temperatures. ASTM Journal of Materials 5(1), 47-74.Google Search
10 
Hildenbrand, G. and Peehs, M. (1978) Investigation of the inter-action between meltdown and reactor ketone. Erlangen: KWU, No. BMFT 154.Google Search
11 
Kang, B. H., Oh, C. H., Kim, W. J., and Kim, I. S. (1991) An Experimental Study On the Estimation of Internal Temperature Distribution od Concrete to be Heating. Journal of the Architectural Institute of Korea Structure and Construction 7(6), 237-244. (In Korean)Google Search
12 
Kim, W. J. (1988) Mechanical Properties of High Strength Concrete at High Temperatures. Ph.D. Thesis. Tokyo Institute of Technology.Google Search
13 
Kim, W. J. (2007) Structural Safety Diagnosis Report (Daegu, S market). Daegu: Kyungpook National University. (In Korean)Google Search
14 
Schneider, U. (1985) Properties of Materials at High Temperatures: Concrete. Kassel: Kassel University, No. RILEM Committee 44-PHT.Google Search