Numerical modelling of timber connections under fire loading using a component model

[en] This paper describes a component model for dowelled timber connections under fire loading. The component model of the dowelled connection is first developed and calibrated for room temperature. The constitutive relations for dowel–timber interaction are detailed and compared with experimental results. In the fire situation, a two-step approach is used: first, three-dimensional (3D) thermal analysis of the connection is performed using a conductive model with timber properties defined in Eurocode 5 in order to calculate the temperatures in the fasteners and timber; afterwards, the mechanical analysis using a component model is carried out using mechanical properties of the steel dowel and of timber adjusted to the temperatures obtained by the thermal analyses. These properties are reduced according to Eurocode 3 and Eurocode 5, respectively. Numerical simulations are presented that allow evaluation of the model behaviour and performance. Obtained results show good agreement with available experimental data, indicating that regardless of its simplicity, the component model has the capability to accurately model timber connections under fire loading

Disciplines :

Materials science & engineering

Author, co-author :

Cachim, Paulo B.; University of Aveiro

Franssen, Jean-Marc ; Université de Liège - ULiège > Département Argenco : Secteur SE > Ingénierie du feu

Language :

English

Title :

Numerical modelling of timber connections under fire loading using a component model

Publication date :

2009

Journal title :

Fire Safety Journal

ISSN :

0379-7112

eISSN :

1873-7226

Publisher :

Elsevier Science, Oxford, United Kingdom

Volume :

Pages :

840-853

Peer reviewed :

Peer Reviewed verified by ORBi

Available on ORBi :

since 02 December 2009

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Bibliography

EN 1995-1-1:2004, Eurocode 5: Design of Timber Structures-Part 1-1: General-Common Rules and Rules for Buildings, CEN, Belgium.
Moses D.M., and Prion H.G.L. A three-dimensional model for bolted connections in wood. Can. J. Civ. Eng. 30 3 (2003) 555-567 10.1139/l03-009
Patton-Mallory M., Smith F.W., and Pellicane P.J. Modeling bolted connections in wood: a three-dimensional finite-element approach. J. Test Eval. 26 2 (1998) 115-124 10.1520/JTE11981J
Kharouf N., McClure G., and Smith I. Elasto-plastic modeling of wood bolted connections. Comput. Struct. 81 (2003) 747-754 10.1016/S0045-7949(02)00482-0
K. Laplanche, Etude du comportement au feu des assemblages de structures bois: approche expérimentale et modélisation, Ph.D. Dissertation, University Blaise Pascal (Clermont-Ferrand), France, 2006 (in French).
Erdo{combining double acute accent}di L., and Bódi I. Experimental and numerical analysis of timber joints. In: Brebbia C.A., and de Wilde W.P. (Eds). High Performance Structures and Materials II (2004), WIT Press, Wessex, UK 10.2495/HPSM040201
Chen C.J., Lee T.L., and Jeng D.S. Finite element modeling for the mechanical behavior of dowel-type timber joints. Comput. Struct. 81 (2003) 2731-2738 10.1016/S0045-7949(03)00338-9
M. Reid, J. Shin, P. Quenneville, Capacity predictions for one and two-row bolted timber connections, in: Eighth World Conference on Timber Engineering, WCTE 2004, Lahti, Finland.
Racher P., and Bocquet J.F. Non-linear analysis of dowelled timber connections: a new approach for embedding modelling. Electron. J. Struct. Eng. 5 (2005) 1-9
Sawata K., and Yasumura M. Estimation of yield and ultimate strengths of bolted timber joints by nonlinear analysis and yield theory. J. Wood Sci. 49 (2003) 383-391 10.1007/s10086-002-0497-3
Nishiyama N., and Ando N. Analysis of load-slip characteristics of nailed wood joints: application of a two-dimensional geometric nonlinear analysis. J. Wood Sci. 49 (2003) 505-512 10.1007/s10086-003-0519-9
C.L.O. Santana, N.T. Mascia, Determination of fastener stiffness and application in the structural design with semi-rigid connections, in: Ninth World Conference on Timber Engineering, WCTE 2006, Portland, OR, USA.
Jiang L., and Chui Y.H. Finite element model for wood-based floors with lateral reinforcements. J. Struct. Eng.-ASCE 130 7 (2004) 1097-1107 10.1061/(ASCE)0733-9445(1998)124:1(96)
Hwang K., and Komatsu K. Bearing properties of engineered wood products I: effects of dowel diameter and loading direction. J. Wood Sci. 48 (2002) 295-301
L.Y. Lam, Développement de modèles analytiques pour la prédiction du comportement élastique des assemblages mécaniques à broches dans la construction en bois, Ph.D. Dissertation, University of Liege, Belgium, 2006 (in French).
Daudeville L., Davenne L., and Yasumura M. Prediction of the load carrying capacity of bolted timber joints. Wood Sci. Technol. 33 (1999) 15-29
C. Erchinger, A. Frangi, A. Mischler, Thermal investigations on multiple shear steel-to-timber connections, in: Ninth World Conference on Timber Engineering, WCTE 2006, Portland, OR, USA.
J. König, M. Fontana, The Performance of Timber Connections in Fire-Test Results and Rules of Eurocode 5, in: S. Aicher, H.-W. Reinhardt (Eds.), Proceedings of the RILEM Symposium Joints in Timber Structures, Stuttgart, Germany, 2001, pp. 639-648.
Franssen J.-M. SAFIR. A thermal/structural program modelling structures under fire. Eng. J. AISC 42 3 (2005) 143-158
EN 383:1993, Timber Structures. Test Methods. Determination of Embedment Strength and Foundation Values for Dowel Type Fasteners, CEN, Belgium.
M.U. Pederson, Dowel Type Timber Connections-Strength Modelling, Ph.D. Dissertation, Rapport BYG DTU R-039, Technical University of Denmark, Denmark, 2002.
Sawata K., and Yasumura M. Determination of embedding strength of wood for dowel-type fasteners. J. Wood Sci. 48 (2002) 138-146
EN 1993-1-2: 2005, Eurocode 3: Design of Steel Structures-Part 1-2: General Rules-Structural Fire Design.
EN 1991-1-2:2002, Eurocode 1: Actions on Structures-Part 1-2: General Actions-Actions on Structures Exposed to Fire, CEN, 2002.
EN 1995-1-2:2004, Eurocode 5: Design of Timber Structures-Part 1-2: General-Structural Fire Design. CEN, 2004.
K. Laplanche, D. Dhima, P. Racher, 2004. Predicting the behaviour of dowelled connections in fire: fire test results and heat transfer modelling, in: Eighth World Conference on Timber Engineering, WCTE 2004, Lahti, Finland.
J. Kruppa, T. Lamadon, P. Racher, 2000. Fire resistance tests of timber connections, CTICM, INC-00/187-JK/NB.