Experimental and numerical investigation of S700 high strength steel CHS beam–columns after exposure to fire
This paper presents an experimental and numerical investigation into the post-fire behaviour and residual capacity of S700 high strength steel circular hollow section (CHS) beam–columns. The experimental investigation was performed on ten S700 high strength steel CHS beam–columns and included heatin...
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sg-ntu-dr.10356-1619162022-09-26T05:28:29Z Experimental and numerical investigation of S700 high strength steel CHS beam–columns after exposure to fire Zhong, Yukai Zhao, Ou Gardner, Leroy School of Civil and Environmental Engineering Engineering::Civil engineering CHS Beam–Columns Design Analysis This paper presents an experimental and numerical investigation into the post-fire behaviour and residual capacity of S700 high strength steel circular hollow section (CHS) beam–columns. The experimental investigation was performed on ten S700 high strength steel CHS beam–columns and included heating and cooling of the specimens as well as post-fire material testing, initial global geometric imperfection measurements and pin-ended eccentric compression tests. A subsequent numerical investigation was conducted, where finite element models were developed and validated against the test results and then employed to carry out parametric studies to generate further numerical data over a wide range of cross-section dimensions, member lengths and loading combinations. In view of the fact that there are no specific provisions for the design of steel structures after exposure to fire, the relevant room temperature design interaction curves were evaluated, using post-fire material properties, to assess their applicability to S700 high strength steel CHS beam–columns after exposure to fire, based on the test and numerical data. The evaluation results revealed that the interaction curves provided in the American Specification and Australian Standard result in a high level of design accuracy and consistency, while the Eurocode interaction curve leads to more conservative and scattered failure load predictions. Finally, a revised Eurocode interaction curve, with more accurate end points, was proposed and shown to offer improved failure load predictions for S700 high strength steel CHS beam–columns after exposure to fire. The specimens tested in the present paper were fabricated and sponsored by SSAB, AB, Singapore. The first author receives financial supports for his PhD study from a JTC Research Project (Award number: 04SBS000325C120). 2022-09-26T05:28:29Z 2022-09-26T05:28:29Z 2022 Journal Article Zhong, Y., Zhao, O. & Gardner, L. (2022). Experimental and numerical investigation of S700 high strength steel CHS beam–columns after exposure to fire. Thin-Walled Structures, 175, 109248-. https://dx.doi.org/10.1016/j.tws.2022.109248 0263-8231 https://hdl.handle.net/10356/161916 10.1016/j.tws.2022.109248 2-s2.0-85129340095 175 109248 en 04SBS000325C120 Thin-Walled Structures © 2022 Elsevier Ltd. All rights reserved. |
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Engineering::Civil engineering CHS Beam–Columns Design Analysis Zhong, Yukai Zhao, Ou Gardner, Leroy Experimental and numerical investigation of S700 high strength steel CHS beam–columns after exposure to fire |
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This paper presents an experimental and numerical investigation into the post-fire behaviour and residual capacity of S700 high strength steel circular hollow section (CHS) beam–columns. The experimental investigation was performed on ten S700 high strength steel CHS beam–columns and included heating and cooling of the specimens as well as post-fire material testing, initial global geometric imperfection measurements and pin-ended eccentric compression tests. A subsequent numerical investigation was conducted, where finite element models were developed and validated against the test results and then employed to carry out parametric studies to generate further numerical data over a wide range of cross-section dimensions, member lengths and loading combinations. In view of the fact that there are no specific provisions for the design of steel structures after exposure to fire, the relevant room temperature design interaction curves were evaluated, using post-fire material properties, to assess their applicability to S700 high strength steel CHS beam–columns after exposure to fire, based on the test and numerical data. The evaluation results revealed that the interaction curves provided in the American Specification and Australian Standard result in a high level of design accuracy and consistency, while the Eurocode interaction curve leads to more conservative and scattered failure load predictions. Finally, a revised Eurocode interaction curve, with more accurate end points, was proposed and shown to offer improved failure load predictions for S700 high strength steel CHS beam–columns after exposure to fire. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Zhong, Yukai Zhao, Ou Gardner, Leroy |
| format |
Article |
| author |
Zhong, Yukai Zhao, Ou Gardner, Leroy |
| author_sort |
Zhong, Yukai |
| title |
Experimental and numerical investigation of S700 high strength steel CHS beam–columns after exposure to fire |
| title_short |
Experimental and numerical investigation of S700 high strength steel CHS beam–columns after exposure to fire |
| title_full |
Experimental and numerical investigation of S700 high strength steel CHS beam–columns after exposure to fire |
| title_fullStr |
Experimental and numerical investigation of S700 high strength steel CHS beam–columns after exposure to fire |
| title_full_unstemmed |
Experimental and numerical investigation of S700 high strength steel CHS beam–columns after exposure to fire |
| title_sort |
experimental and numerical investigation of s700 high strength steel chs beam–columns after exposure to fire |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/161916 |
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1745574654595039232 |