GBT-based semi-analytical solutions for the elastic/plastic stability analysis of stainless steel thin-walled columns exposed to fire

Gonçalves, R.; Neves, Rui Alexandre Marçalo; Camotim, D.

http://hdl.handle.net/10362/98332

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Autores

Gonçalves, R.

Neves, Rui Alexandre Marçalo

Camotim, D.

Resumo(s)

This paper presents and illustrates the application of an efficient Generalized Beam Theory (GBT) semi-analytical solution procedure to determine elastic and plastic bifurcation loads (linear stability analysis) of stainless steel thin-walled members subjected to uniform compression and exposed to fire. Besides global (flexural or flexural-torsional) buckling, the proposed GBT formulation allows for cross-section deformation and therefore makes it possible to capture local and distortional buckling. The temperature effect is taken into account using the material law for stainless steel specified in Eurocode 3 part 1-4 (CEN 2006) and Annex C of part 1-2 (CEN 2009). For plastic buckling, the material tangent moduli are obtained using both J2 small-strain incremental and deformation plasticity theories. For illustrative purposes, the procedure is applied to columns with a lipped channel cross-section.

Descrição

The authors gratefully acknowledge the financial support of FCT (Fundação para a Ciência e a Tecnologia, Portugal), through Project “StaSteFi—Fire design of stainless steel structural elements”.

Palavras-chave

Civil and Structural Engineering Building and Construction Safety, Risk, Reliability and Quality

URI

http://hdl.handle.net/10362/98332

Editora

Structural Stability Research Council (SSRC)

Coleções

FCT: DEC - Documentos de conferências internacionais

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