Finite Element Analysis on the Fire Resistance of the Effect of Thickness of Elliptical Steel Tubular Columns Filled with Concrete at Elevated Temperature

Te Wei Fan

doi:10.4028/www.scientific.net/AMM.584-586.912

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 584-586Finite Element Analysis on the Fire Resistance of...

Finite Element Analysis on the Fire Resistance of the Effect of Thickness of Elliptical Steel Tubular Columns Filled with Concrete at Elevated Temperature

Abstract:

elliptical Concrete-filled steel tubular (ECFT) columns are often used as the main supporting columns for high-rise buildings and has become a topic of academic concern. The past research about ECFT most focused on its ultimate strength and mechanical behavior. The experiment method which is usually expensive and time-consuming. Other research methods include combining experimental data with appropriate theory to design or calculate the structural properties, and these methods tend to have a conservative assessment of the results. Therefore, some researches have been developing finite element model to simulate and analyze the ultimate strength and buckling condition of ECFT and its component behavior. In this paper, finite element analysis is used to explore the mechanical behavior of ECFT during exerting axial compression load. Contact pair settings and friction coefficient settings were compared with different pattern to investigate the accuracy of simulation and the mechanical behavior of ECFT columns. Study found that the ultimate strength for ECFT columns obtained by finite element analysis can achieve good accuracy, and in the meantime the mechanical behavior simulation of ECFT columns with proper finite element settings could be achieved.

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Periodical:

Applied Mechanics and Materials (Volumes 584-586)

Pages:

912-916

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.584-586.912

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Online since:

July 2014

Authors:

Te Wei Fan

Keywords:

Elliptical Concrete-Filled Tubular Column, Finite Element Analysis (FEA), Fire Resistance

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References

[1] ChanTM, GardnerL. Compressiveresistanceofhot-rollellipticalhollow sections. Engineering Structures Vol. 30, No. 2 (2008) p.522–32.

Google Scholar

[2] ChanTM, GardnerL. Bendingstrength of hot-rolledellipticalhollowsections. Journal of Constructional Steel Research Vol. 64, No. 9 (2008) p.971–86.

Google Scholar

[3] GardnerL, ChanTM. Cross-sectionclassificationofellipticalhollowsections. Steel and Composite StructuresVol. 7, No. 3 (2007) p.185–200.

Google Scholar

[4] Ruiz-TeranAM, GardnerL. Elasticbucklingofellipticaltubes. Thin-Walled StructuresVol. 46, No. 11 (2008) p.1304–18.

Google Scholar

[5] Dai X, Lam D. Numerical modeling of the axial compressive behaviour of short concrete-filled elliptical steel columns. Journal of Constructional Steel Research Vol. 66(2010) p.931–42.

DOI: 10.1016/j.jcsr.2010.02.003

Google Scholar

[6] Dai XH, Lam D. Shape effect on the behaviour of axially loaded concrete ﬁlled steel tubular stubcolumns at elevated temperature. Journal of Constructional Steel Research Vol. 73 (2012) p.117–127.

DOI: 10.1016/j.jcsr.2012.02.002

Google Scholar

[7] YangH, LamD, GardnerL. Testing and analysis of concrete-filledelliptical hollow sections. Engineering StructuresVol. 30 (2008) p.3771–81.

Google Scholar

[8] Ana Espinos, LeroyGardner, ManuelL. Romero, AntonioHospitaler. Fire behaviour of concrete filled elliptical steel columns. Thin-Walled StructuresVol. 49 (2011) p.239–255.

DOI: 10.1016/j.tws.2010.10.008

Google Scholar

[9] CEN, EN 1993-1-1. Eurocode 3: Design of steel structures. Part 1-1: General rules and rules for buildings. Brussels, Belgium: Comite´ Europe´en de Normal- isation; (2005).

DOI: 10.1680/dgte3.31630

Google Scholar

[10] CEN, EN 1994-1-1. Eurocode 4: Design of composite steel and concrete structures. Part 1-1: General rules and rules for buildings. Brussels, Belgium: Comite' Europe'en de Normalisation; (2004).

DOI: 10.1680/dgte4.31517

Google Scholar

[11] CEN, EN 1363-1. Fire resistance tests. Part 1: General requirements. Brussels, Belgium: Comite' Europe'en de Normalisation; (1999).

Google Scholar