Predicting the fire resistance of timber members loaded in tension

SUMMARY The paper presents a numerical model for predicting the fire resistance of timber members. Fire resistance is evaluated in a two‐step process implemented in the Abaqus finite element code: first, a time‐dependent thermal analysis of the member exposed to fire and then a structural analysis u...

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Vydáno v:	Fire and materials Ročník 37; číslo 2; s. 114 - 129
Hlavní autoři:	Fragiacomo, Massimo, Menis, Agnese, Moss, Peter J., Clemente, Isaia, Buchanan, Andrew H., De Nicolo, Barbara
Médium:	Journal Article
Jazyk:	angličtina
Vydáno:	Chichester, UK John Wiley & Sons, Ltd 01.03.2013 Wiley Wiley Subscription Services, Inc
Témata:	Abaqus Applied sciences Building codes Building insulation Building structure Buildings Buildings. Public works charring Computation methods. Tables. Charts Computer simulation Construction (buildings and works) Exact sciences and technology experimental testing External envelopes Finite element method finite element model Fire resistance Fires Lumber Materials Mathematical analysis Mathematical models Mechanical properties Sound insulation Structural analysis Structural analysis. Stresses Thermal analysis Thermal properties thermal-structural analysis Timber Wood Wood structure Wood Construction materials Combustion Wood construction Experimental study Forecast model Modeling Building functional element Finite element method Fire resistance experimental testing Abaqus finite element model Fire test charring Numerical simulation Thermal analysis timber thermal-structural analysis Comparative study Structural analysis
ISSN:	0308-0501, 1099-1018
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Shrnutí:	SUMMARY The paper presents a numerical model for predicting the fire resistance of timber members. Fire resistance is evaluated in a two‐step process implemented in the Abaqus finite element code: first, a time‐dependent thermal analysis of the member exposed to fire and then a structural analysis under a constant load are performed. The structural analysis considers the reduction in mechanical properties (modulus of elasticity and strength) of timber with temperature. The analysis terminates when the member can no longer redistribute stresses from the hottest to the coldest parts, leading to structural failure. The model was used to simulate fire tests carried out on specimens made from laminated veneer lumber loaded in tension. Experimental data in terms of temperature, charring depth, displacement and failure time were compared with the numerical results obtained by assuming the thermal properties and degradation of mechanical properties with temperature as suggested by Eurocode 5, showing an overall acceptable approximation. The fire resistance of the timber member was then predicted depending upon the applied tensile loads using the numerical model and analytical formulas. The proposed finite element model can be used to predict the fire resistance of timber structures as an alternative to expensive and complicated experimental tests. Copyright © 2012 John Wiley & Sons, Ltd.
Bibliografie:	ark:/67375/WNG-2KW67MSB-B istex:03C239EB77942C0A7FA684A2B1F996DA4914482A ArticleID:FAM2117 ObjectType-Article-1 SourceType-Scholarly Journals-1 content type line 14 ObjectType-Feature-2 content type line 23
ISSN:	0308-0501 1099-1018
DOI:	10.1002/fam.2117