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Behaviour of high strength steel columns under fire conditions

Behaviour of high strength steel columns under fire conditions
Behaviour of high strength steel columns under fire conditions

With the scarcity of performance data on HSS columns at elevated temperature, a numerical model, which considered geometric imperfections and material non-linearity has been developed in ABAQUS (2014) and validated using experimental data on HSS at ambient temperature and mild steel grades at elevated temperature. After the model was validated, parametric studies incorporating material properties of two different steel grades: S690QL and S700MC were done, in order to determine the influence of the steel grades on the buckling behaviour and assess the suitability of the Eurocode fire resistance design rules for HSS columns. The results showed that the Eurocode generally provides conservative (i.e. safe) results with respect to the buckling coefficients and safely predicts the buckling resistance of columns made from S700MC, while a lower buckling curve may be needed for columns made from S690QL. In addition, because of the various alloying and production routes employed to produce HSS, variations in the stress-strain responses was also observed, in turn, this influenced the buckling response and highlighted possible unconservativisms (i.e. unsafe) in the Eurocode design approach as a result of generalising the material response.

Buckling response, Fire, High strength steel, S690QL, S700MC
0143-974X
392-404
Winful, D.
fc3c433e-34ef-402f-a036-f5184b213fa6
Cashell, K. A.
99ac6797-700d-4119-bffc-b6557586bd50
Afshan, S.
68dcdcac-c2aa-4c09-951c-da4992e72086
Barnes, A. M.
80d14378-8357-4dfa-809a-d750a8b803f8
Pargeter, R. J.
58926ecb-4666-45a6-9c54-68dc280dd7c3
Winful, D.
fc3c433e-34ef-402f-a036-f5184b213fa6
Cashell, K. A.
99ac6797-700d-4119-bffc-b6557586bd50
Afshan, S.
68dcdcac-c2aa-4c09-951c-da4992e72086
Barnes, A. M.
80d14378-8357-4dfa-809a-d750a8b803f8
Pargeter, R. J.
58926ecb-4666-45a6-9c54-68dc280dd7c3

Winful, D., Cashell, K. A., Afshan, S., Barnes, A. M. and Pargeter, R. J. (2018) Behaviour of high strength steel columns under fire conditions. Journal of Constructional Steel Research, 150, 392-404. (doi:10.1016/j.jcsr.2018.06.008).

Record type: Article

Abstract

With the scarcity of performance data on HSS columns at elevated temperature, a numerical model, which considered geometric imperfections and material non-linearity has been developed in ABAQUS (2014) and validated using experimental data on HSS at ambient temperature and mild steel grades at elevated temperature. After the model was validated, parametric studies incorporating material properties of two different steel grades: S690QL and S700MC were done, in order to determine the influence of the steel grades on the buckling behaviour and assess the suitability of the Eurocode fire resistance design rules for HSS columns. The results showed that the Eurocode generally provides conservative (i.e. safe) results with respect to the buckling coefficients and safely predicts the buckling resistance of columns made from S700MC, while a lower buckling curve may be needed for columns made from S690QL. In addition, because of the various alloying and production routes employed to produce HSS, variations in the stress-strain responses was also observed, in turn, this influenced the buckling response and highlighted possible unconservativisms (i.e. unsafe) in the Eurocode design approach as a result of generalising the material response.

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More information

Accepted/In Press date: 3 June 2018
e-pub ahead of print date: 8 September 2018
Published date: 1 November 2018
Keywords: Buckling response, Fire, High strength steel, S690QL, S700MC

Identifiers

Local EPrints ID: 429979
URI: http://eprints.soton.ac.uk/id/eprint/429979
DOI: doi:10.1016/j.jcsr.2018.06.008
ISSN: 0143-974X
PURE UUID: 377c7680-fe87-415f-92b6-c0cc6481f4ba
ORCID for S. Afshan: ORCID iD orcid.org/0000-0003-1048-2931

Catalogue record

Date deposited: 09 Apr 2019 16:30
Last modified: 18 Mar 2024 03:52

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Contributors

Author: D. Winful
Author: K. A. Cashell
Author: S. Afshan ORCID iD
Author: A. M. Barnes
Author: R. J. Pargeter

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