Mobile QR Code QR CODE
Export citation EndNote
1 
ACI Committee 318 (2002) Building code requirements for structural concrete (ACI 318-02) and commentary (ACI 318R-02). Michigan, Farmington Hills: American Concrete Institute.Google Search
2 
Amer Society of Civil Engineers (1994) Minimum Design Loads for Buildings and Other Structures Vol. 7.Google Search
3 
American Society for Testing and Materials (2008) ASTM, E.119, Standard Methods of Fire Test of Building Construction and Materials, Test Method E119a-08, West Conshohocken, PA.Google Search
4 
Building Officials and Code Administrators International. (1975) The BOCA basic building code, 1975. Chicago: Building Officials & Code Administrators International.Google Search
5 
Chan, A. H. C. (1993). User manual for Diana-Swandyne-II. Birmingham., School of Civil Engineering. University of Birmingham.Google Search
6 
Choi, J. H., Choi, S. J., Kim, T. K., and Kim, J. H. (2017) Damage Evaluation of Bi-directionally Prestressed Concrete Panels under Blast-fire Combined Loading. Journal of the Korea Concrete Institute 29, 237-248. (In Korean)DOI
7 
Comite Europeen (2002) Designers' guide to EN 1992-1-1 and EN 1992-1-2. Eurocode 2: design of concrete structures: General rules and rules for buildings and structural fire design. London: Thomas Telford.Google Search
8 
Denoël, J. (2007) Fire Safety and Concrete Structures, Brussels, FEBELCEM, Rue Volta 8.Google Search
9 
Dwaikat, M. and Kodur, V. (2009) Response of Restrained Concrete Beams Under Design Fire Exposure, Journal of Structural Engineering 135, 1408-1417.DOI
10 
Hallquist, J. O. (2007) LS-DYNA keyword user’s manual. Livermore, Software Technology Corporation, 970, 1-2.Google Search
11 
Lamont, S., Lane, B., Flint, G., and Usmani, A. (2006) Behavior of Structures in Fire and Real Design-a Case Study, Journal of Fire Protection Engineering 16, 5-35.DOI
12 
Lee, S. and Wang, Y. C. (2016) Robustness of reinforced concrete framed building at elevated temperatures, PhD, University of Manchester.Google Search
13 
Lew, H. S., Bao, Y., Sadek, F., Main, J. A., Pujol, S., and Sozen, M. A. (2011) An Experimental and Computational Study of Reinforced Concrete Assemblies Under a Column Removal Scenario, NIST Technical Note 1720.Google Search
14 
Moore, D. (2002) The UK and European regulations for accidental actions, in workshop on prevention of progressive collapse, Washington D.C, National Institute of Building Science. (pp. 10-12).Google Search
15 
Ngo, D. and Scordelis, A. (1967) Finite Element Analysis of Reinforced Concrete Beams, In Journal Proceedings, Vol. 64. No. 3., 152-163.Google Search
16 
Pearson, C. and Delatte, N. (2005) Ronan Point Apartment Tower Collapse and Its Effect on Building Codes, Journal of Performance of Constructed Facilities 19, 172-177.DOI
17 
Rashid, Y. (1968) Ultimate Strength Analysis of Prestressed Concrete Pressure Vessels, Nuclear Engineering and Design 7, 334-344.DOI
18 
Sasani, M. and Kropelnicki, J. (2008) Progressive Collapse Analysis of an RC Structure, The Structural Design of Tall and Special Buildings 17, 757-771.DOI
19 
Wang, Y. C. (2003) Steel and Composite Structures: Behaviour and Design for Fire Safety, CRC Press.Google Search
20 
Yi, N. H., Lee, S. W., and Kim, J. H. J. (2012) Experimental Study on Fire-resistant Characteristics of Bi-directionally Prestressed Concrete Panel under RABT Fire Scenario, Journal of the Korea Concrete Institute 24, 695-703. (In Korean)DOI
21 
Yi, W. J., He, Q. F., Xiao, Y., and Kunnath, S. K. (2008) Experi-mental Study on Progressive Collapse-resistant Behavior of Reinforced Concrete Frame Structures, ACI Structural Journal 105, 433.Google Search
22 
Yu, J. and Tan, K. H. (2013) Experimental and numerical investigation on progressive collapse resistance of reinforced concrete beam column sub-assemblages. Engineering Structures, 55, 90-106.DOI