Allman, D.J. (1984), "A Compatible Triangular Element Including Vertex Rotations For Plane Elastic Analysis," Computers & Structures, Vol. 19, pp 1-8.
Batoz, J.L., and Ben Tahar, M. (1982), "Evaluation of a New Quadrangular Thin Plate Bending Element," International Journal of Numerical Methods in Engineering, Vol. 18, pp. 1655-1677.
Becker, J., Bizri, H., and Bresler, B. (1974a), Fires-R.C. A Computer Program for the Fire Response of Structures-Thermal, Report No. UCB FRG 74-1, University of California, Berkeley.
Becker, J., Bizri, H., and Bresler, B. (1974b), Fires-T. A Computer Program for the Fire Response of Structures-Reinforced Concrete, Report No. UCB FRG 74-3, University of California, Berkeley.
Coin, A. (1976), Températures dans un solide hété rogène au cours d'un incendie, Annales de l'Inst. Techn. Du Bâtiment et des Travaux Publics, Série Informatique Appliquée, No. 28.
De Ville de Goyet, V. (1988), L'analyse Statique Non Linéaire par la Méthode des éléments Finis des Structures Formées de Poutres à Section Non Symétriques, Ph.D. thesis, University of Liege, F.S.A.
De Souza Junior, V., and Franssen, J.-M. (2002), "Lateral Buckling of Steel I-Beams at Elevated Temperature-Comparison between the Modelling with Beam and Shell Elements," Proceedings Third European Conference on Steel Structures, ISBN: 972-98376-3-5, Coïmbra, University de Coïmbra, A. Lamas & L. Simoes da Silva ed., pp. 1479-1488.
Dotreppe, J.-C. ( 1972), Etude par éléments Finis des Dalles en Béton Armé Jusqu'à la Ruine, Ph.D. thesis, F.S.A., University of Liege.
Dotreppe, J.-C. (1980), Méthodes Numériques pour la Simulation du Comportement au Feu des Structures en Acier et en Béton Armé, Thèse d'agr. Ens. Sup., F.S.A., University of Liege.
Eurocode (1995a), Eurocode 1: Basis of design and actions on structures-Part 2-2: Actions on Structures-Actions on Structures Exposed to Fire, ENV 1991-2-2, CEN, Brussels, February.
Eurocode (1995b), Eurocode 2: Design of Concrete Structures, Part 1.2: General Rules, Structural Fire Design, ENV 1992-1-2, CEN, Brussels, Novembre.
Eurocode (1995c), Eurocode 3: Design of Steel Structures, Part 1.2: General Rules, Structural Fire Design, ENV 1993-1-2, CEN, Brussels, May.
Eurocode (1998), Eurocode 9: Design of Aluminium Alloy Structures, Part 1-2: Structural Fire Design, ENV 1999-1-2, CEN, Brussels, May.
Franssen, J.-M. (1987), Etude du Comportement au Feu des Structures Mixtes Acier-Béton, Collection des Publications de la F.S.A. de l'Univ. de Liège, No. 111.
Franssen, J.-M., Schleich, J.-B., Cajot, L.-G., Talamona, D., Zhao, B., Twilt, L., and Both, K. (1994), "A Comparison Between Five Structural Fire Codes Applied to Steel Elements," Proceedings of Fourth International Symposium on Fire Safety Science, Ottawa, Kashiwagi, T., ed., Gaithersburg, pp. 1125-1136.
Franssen, J.-M. (1997), Contributions à la Modélisation des Incendies Dans les Bâtiments et de Leurs Effets sur les Structures, Thèse d'agrégation, University of Liege, F.S.A.
Franssen, J.-M. (2003), Heat Transfer by Radiation in Internal Cavities With a Complex Shape, ASCE/SFPE Specialty Conference on Designing Structures for Fire, Baltimore, MD, October.
Franssen, J.-M. (2004), "Dynamic Analysis Used to Cope With Partial and Temporary Failures," Proceedings of Third International SiF Workshop, Franssen, Benichou, Kodur & Sultan Ed., NRC-CNRC, Ottawa.
Hottel, H.C. (1954), "Radiant Heat Transmission," in William H. McAdams (ed.), Heat Transmission, 3rd ed., pp. 55-125, McGraw-Hill Book Co., New York.
Iding, R., Bresler, B., and Nizamuddin, Z. (1977a), "FIRES-T3, A Computer Program for the Fire Response of Structures-Thermal," Report UCB FRG 77-15, University of California, Berkeley.
Iding, R., Bresler, B., and Nizamuddin, Z. (1977b), "FIRES-RCII, A Computer Program for the Fire Response of Structures-Reinforced Concrete Frames," Report UCB FRG 77-8, University of California, Berkeley.
Iding, R., and Bresler, B. (1980), Analysis of Fire Response of Steel Floor Systems, Wiss, Janney, Elstner & Associates, Inc.
ISO (1999), Fire-resistance tests-Elements of Building Construction-Part 1: General Requirements, ISO 834-1:1999, Geneva.
Jaamei, S. (1988), "JET Thin Shell Finite Element with Drilling Rotations," IREM Internal Report 88/7, Swiss Federal Institute of Technology, Lausanne, Switerland, July.
Lim, L. (2003), Membrane Action in Fire Exposed Concrete Floor Systems, Ph.D. thesis (in preparation), Department of Civil Engineering, University of Canterbury.
Pintea, D., and Franssen, J.-M. (1997), "Evaluation of the Thermal Part of the Code SAFIR by Comparison With the Code TASEF," Proceedings of the Eighth International Conference on Steel Structures, Volume 2, M. Ivan ed., MIRTON, Timisoara, pp. 636-643.
Schleich, J.-B., Dotreppe J.-C., and Franssen J.-M. (1986), "Numerical Simulations of Fire Resistance tests on steel and composite structural elements or frames," Proceedings of the First International Symposium on Fire Safety Science, Hemisphere Publishing Corporation, pp. 311-323.
Talamona, D., and Franssen, J.-M. (2000), "New quadrangular shell element in SAFIR," Proceedings First International "Structures in Fire" Workshop, Copenhagen, J.M. Franssen ed., Liège, pp. 195-210.
Tien, C.L., Lee, K.Y., and Stretton, A.J. (1995), "Radiation Heat Transfer," The SFPE Handbook of Fire Protection Engineering, SFPE, Boston, pp. 1,65-1,79.
Wickström, U. (1979), "A Numerical Procedure for Calculating Temperature in Hollow Structures Exposed to Fire," Report No. 79-2, Department of Structural Mechanics, Lund, Sweden.