[en] Major earthquakes in urban areas have often been followed by significant fires that cause extensive damage to property. Therefore, a seismic-induced fire is a scenario that should be addressed properly in performance-based engineering. In this paper, numerical and experimental results of welded steel–concrete composite full-strength beam-to-column joints under post-earthquake fires are described.
This was part of a European project aimed at developing fundamental data and prequalification design guidelines of ductile and fire-resistant composite beam-to-column joints with concrete-filled tubes. In detail, seismic and fire analyses were used to design moment-resisting frames endowed with the proposed joint typology. A total of six specimens were designed and subjected to both monotonic and cyclic lateral loads. The specimens were subassemblages of beam-to-column joints, and performed well. Since the scope of the project was to promote joint typologies able to survive a seismic-induced fire, some specimens were pre-damaged before being subjected to fire loadings by imposing monotonic loads equivalent to damage levels induced by seismic loadings. Thus, after fire testing, valuable information about the performance of the proposed joint typology was obtained, and the adequacy of the concurrent seismic and fire design was demonstrated.
Disciplines :
Civil engineering
Author, co-author :
Pucinotti, Raffaele; Mediterranean University of Regio Calabria, Italy > Dept. of Mechanics and Materials
Bursi, Oreste; Trento University, Italy > Dept. of Mechanical and Structural Engineering
Franssen, Jean-Marc ; Université de Liège - ULiège > Département Argenco : Secteur SE > Ingénierie du feu
Lennon, Tom; Building Research Establishment Ltd, UK
Language :
English
Title :
Seismic-induced fire resistance of composite welded beam-to-column joints with concrete-filled tubes
Publication date :
2011
Journal title :
Fire Safety Journal
ISSN :
0379-7112
eISSN :
1873-7226
Publisher :
Elsevier Science, Oxford, United Kingdom
Volume :
46
Pages :
335-347
Peer reviewed :
Peer Reviewed verified by ORBi
Name of the research project :
PRECIOUS (Prefabricated composite beam-to-concrete filled tubes or partially reinforced-concrete-Encased Column connections for severe seismic and fire loadings
Funders :
RFCS - European Commission. Research Fund for Coal and Steel [BE]
EN 1991-1-2, Eurocode 1: Actions on Structures - Parts 12: General actions - Actions on Structures Exposed to Fire, 2004.
EN 1998-1. Eurocode 8: Design of Structures for Earthquake Resistance - Part 1: General Rules, Seismic Actions and Rules for Buildings, 2005.
A., Sekizawa; M., Ebihara; H., Notake, Development of seismic-induced fire risk assessment method for a building, in: Proceedings of the Seventh (7th) International Symposium. IAFSS. June 1621, 2003, Worcester, MA.
C., Scawthorn, J.M. Eidinger, A.J. Schiff, (Eds.) Fires Following Earthquake. Technical Council on Lifeline Earthquake Engineering Monograph, 26, 2005.
G. Della Corte, R. Landolfo, and F.M. Mazzolani Post-earthquake fire resistance of moment resisting steel frames Fire Safety Journal 2003 38 2003 593 612
J. Ding, and Y.C. Wang Temperatures in unprotected joints between steel beams and concrete-filled tubular columns in fire Fire Safety Journal 2009 44 2009 16 32
EN 1993-1-2, Eurocode 3: Design of Steel Structures - Parts 12: General Rules - Structural Fire Design, 2005.
EN 1994-1-2, Eurocode 4 - Design of Composite Steel and Concrete Structures - Parts 12: General Rules - Structural Fire Design.
K.S. Al-Jabri, T. Lennon, I.W. Burgess, and R.J. Plank Behaviour of steel and composite beam-column connections in fire Journal of Constructional Steel Research 46 1998 308 309
F.M. Block, I.W. Burgess, J.B. Plank, Numerical and Analytical Studies of Joint Component Behaviour in Fire Third International Workshop on Structures in Fire, (Paper S7-4), 2004.
K.S. Al-Jabri, J.B. Davison, and I.W. Burgess Performance of beam-to-column joints in fire-A review Fire Safety Journal 2008 43 2008 50 62
F. Wald, L. Simões da Silva, D.B. Moore, T. Lennond, M. Chladnà, A. Santiago, M. Beneš, and L. Borges Experimental behaviour of a steel structure under natural fire Fire Safety Journal 41 2006 2006 509 522 (Pubitemid 44416139)
Y.L. Dong, E.C. Zhu, and K. Prasad Thermal and structural response of two-storey two-bay composite steel frames under furnace loading Fire Safety Journal 44 2009 2009 439 450
ISO 834-1, Fire-Resistance Tests - Elements of Building Construction - Part 1: General Requirements, 1999.
Y.C. Wang, and J.M. Davies An experimental study of the fire performance of non-sway loaded concrete-filled steel tubular column assemblies with extended end plate connections Journal of Constructional Steel Research 59 2003 819 838 (Pubitemid 36409316)
EN 1993-1-8, Eurocode 3: Design of Steel Structures - Part 18: Design of Joints, 2005.
R. Pucinotti, O.S. Bursi, and J.-F. Demonceau Post-earthquake fire and seismic performance of welded steel-concrete composite beam-to-column joints Journal of Constructional Steel Research 2011 10.1016/j.jcsr.2011.03.006
O.S. Bursi, et al. (Eds.), Final Report PRECIOUS Project Contr. N. RFSCR-03034. Prefabricated Composite Beam-to-Concrete Filled Tube or Partially Reinforced-Concrete-Encased Column Connections for Severe Seismic and Fire Loadings, 2008.
J.M. Franssen SAFIR. A thermal/structural program modelling structures under fire Engineering Journal, A.I.S.C 42 3 2005 143 158
ECCS, Recommended Testing Procedure for Assessing the Behaviour of Structural Steel Elements under Cyclic Loads. Publication no. 45, 1986.
SAC, Protocol for Fabrication, Inspection, Testing, and Documentation of Beam-Column Connection Tests and Other Experimental Specimens, report n. SAC /BD-97/02, 1997.
EN 1990:2002/A1, Eurocode - Basis of Structural Design, 2005.
T. Lennon, D. Hopkin, Structural Composite Connections for Sequential Seismic and Fire Performance, Information Paper 02/09, 18, Building Research Establishment, 2009.
R.E. Valles, A.M. Reinhorn, S.K. Kunnath, C. Li, A. Madan, IDARC2D Version 4.0: A Program for the Inelastic Damage Analysis of Buildings, Tech. Report NCEER-96-0010, 18, 1996.
M.V. Silvaselvan, A.M. Reinhorn, Hysteretic Model for Cyclic Behaviour of Deteriorating Inelastic Structures, Technical Report MCEER-99-0018, 1999.
Y.J. Park, and A.H.S. Ang Mechanistic seismic damage model for reinforced concrete Journal of Structural Engineering 111 4 1985
Y.H. Chai, and K.M. Romstad Correlation between strain-based low-cycle fatigue and energy-based linear damage models Earthquake Spectra 13 2 1997 191 209 (Pubitemid 127625889)
M.S. Williams, and R.G. Sexsmith Seismic damage indices for concrete structures: a state-of-the-art review Earthquake Spectra 11 2 1995 319 349
