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Concrete In Australia : September 2014
Concrete in Australia Vol 40 No 3 61 10. Diederichs, U., Jumppanen, U. M. & Schneider, U. “High temperature properties and spalling behaviour of HSC. “in Proceedings of 4th Weimar workshop on HPC pp. 219–235. 1995. 11. Bilodeau, A., Malhotra, V. M. & Hoff, G. C. “Hydrocarbon fire resistance of high strength normal weight and light weight concrete incorporating polypropylene fibres” in International symposium on high performance and reactive powder concrete 1998. 12. Kodur, V., Cheng, F., Wang, T. & Sultan, M. “Effect of Strength and Fiber Reinforcement on Fire Resistance of High-Strength Concrete Columns.” Journal of Structural Engineering 129, 253–259 2003. 13. Bailey, C. “Holistic behaviour of concrete buildings in fire.” Proceedings of the ICE - Structures and Buildings 152, 199–212 2002. 14. Andersen, N. E . & Lauridsen, D. H . Danish Institute of Fire Technology Technical Report X 52650 Part 2 – Hollowcore concrete slabs. DIFT, 1999. 15. Chang, J. J., Buchanan, A. H., Dhakal, R. P. & Moss, P. J. “Hollowcore concrete slab exposed to fire.” Fire and Materials 32, 321–331 2008. 16. Borgogno, W. Structural behaviour of slim floor slabs with hollow core slabs at room temperature and the effects of fire. Institute of Structural Engineering, Swiss Federal Institute of Technology, Zurich, 1997. 17. ACI 318. Building code requirements for structural concrete. American Concrete Institute, 2011. 18. PCI. PCI Design Handbook. Precast Prestressed Concrete Institute, 2010. 19. ICC. International Building Code. International Code Council Inc., 2012. 20. PCI. Design for Fire Resistance of Precast/Prestressed Concrete. MNL-124-11, 2011. 21. Eurocode 2. Design of concrete structures, Part 1-2: General rules-structural fire design. ENV 1992-1 -2 . CEN: European Committee for Standardization, 2004. 22. AS 3600. Concrete Structures. Australian Standard AS3600- 2001, 2001. 23. AS/NZS. AS/NZS 1170:2002. Structural design actions. Standards New Zealand, 2002. 24. NRC/CNRC. National Building Code of Canada. 1, National Research Council Canada, 2010. 25. Kodur, V. K. R . & Hatinger, N. “A performance-based approach for evaluating fire resistance of prestressed concrete double T beams.” Journal of Fire Protection Engineering 21, 185–222 2011. 26. Kodur, V. K. R . & Shakya, A. M. “Modeling the response of precast prestressed concrete hollowcore slabs exposed to fire.” PCI Journal 59, 2014. 27. ANSYS . Finite element computer code. ANSYS, Inc., 2014. 28. BS 476–20. Fire tests on building materials and structure – part 20: method for determination of the fire resistance of elements of construction. CEN: European Committee for Standardization, 1987. 29. Willam, K. & Warnke, E. “Constitutive model for the triaxial behaviour of concrete.” in International Association for Bridge and Structural Engineering 1975. 30. Kodur, V. K. R . & Harmathy, T. Z . in SFPE handbook of fire protection engineering Society of Fire Protection Engineers, 2012. 54-61 - Kodur.indd 61 54-61 - Kodur.indd 61 26/08/14 10:24 AM 26/08/14 10:24 AM