Experimental investigation and predictive models of membrane residual stresses in S690 high strength steel welded π-shaped and cruciform sections
This paper reports an experimental investigation of the membrane residual stresses in S690 high strength steel welded π-shaped and cruciform sections. The experimental programme was performed on three π-shaped sections and two cruciform sections, fabricated from 5 mm thick S700MC high strength steel...
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sg-ntu-dr.10356-1760382024-05-13T01:19:05Z Experimental investigation and predictive models of membrane residual stresses in S690 high strength steel welded π-shaped and cruciform sections Chen, Qianzhi Zhang, Lulu Chen, Man-Tai Zhao, Ou School of Civil and Environmental Engineering Engineering Membrane residual stress measurements Predictive models This paper reports an experimental investigation of the membrane residual stresses in S690 high strength steel welded π-shaped and cruciform sections. The experimental programme was performed on three π-shaped sections and two cruciform sections, fabricated from 5 mm thick S700MC high strength steel plates by means of gas metal arc welding, and included material tensile coupon tests and membrane residual stress measurements, with two measurements for each of the five S690 high strength steel welded π-shaped and cruciform sections. The measured tensile and compressive membrane residual stresses were analysed and the self-equilibrium of the measured membrane residual stresses in each constituent plate element was also verified, with the maximum unbalanced membrane residual stress to yield stress ratios of 3.3% for π-shaped sections and 3.2% for cruciform sections. The existing membrane residual stress predictive models, as given in the European convention and Swedish regulations, were assessed for their applicability to S690 high strength steel welded π-shaped and cruciform sections, revealing inaccuracy. Finally, two sets of new predictive models for membrane residual stresses in S690 high strength steel welded π-shaped and cruciform sections were proposed and shown to result in accurate predictions of the measured membrane residual stress data. The financial supports from China Jingye Engineering Corporation Limited (Singapore Branch) (Award Number: 04IDS001121C120) and Regency Steel Asia Endowment Fund (Award Number: 03INS001251C120) are acknowledged. 2024-05-13T01:19:05Z 2024-05-13T01:19:05Z 2024 Journal Article Chen, Q., Zhang, L., Chen, M. & Zhao, O. (2024). Experimental investigation and predictive models of membrane residual stresses in S690 high strength steel welded π-shaped and cruciform sections. Engineering Structures, 303, 117501-. https://dx.doi.org/10.1016/j.engstruct.2024.117501 0141-0296 https://hdl.handle.net/10356/176038 10.1016/j.engstruct.2024.117501 2-s2.0-85183574545 303 117501 en 03INS001251C120 Engineering Structures © 2024 Elsevier Ltd. All rights reserved. |
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Engineering Membrane residual stress measurements Predictive models |
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Engineering Membrane residual stress measurements Predictive models Chen, Qianzhi Zhang, Lulu Chen, Man-Tai Zhao, Ou Experimental investigation and predictive models of membrane residual stresses in S690 high strength steel welded π-shaped and cruciform sections |
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This paper reports an experimental investigation of the membrane residual stresses in S690 high strength steel welded π-shaped and cruciform sections. The experimental programme was performed on three π-shaped sections and two cruciform sections, fabricated from 5 mm thick S700MC high strength steel plates by means of gas metal arc welding, and included material tensile coupon tests and membrane residual stress measurements, with two measurements for each of the five S690 high strength steel welded π-shaped and cruciform sections. The measured tensile and compressive membrane residual stresses were analysed and the self-equilibrium of the measured membrane residual stresses in each constituent plate element was also verified, with the maximum unbalanced membrane residual stress to yield stress ratios of 3.3% for π-shaped sections and 3.2% for cruciform sections. The existing membrane residual stress predictive models, as given in the European convention and Swedish regulations, were assessed for their applicability to S690 high strength steel welded π-shaped and cruciform sections, revealing inaccuracy. Finally, two sets of new predictive models for membrane residual stresses in S690 high strength steel welded π-shaped and cruciform sections were proposed and shown to result in accurate predictions of the measured membrane residual stress data. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Chen, Qianzhi Zhang, Lulu Chen, Man-Tai Zhao, Ou |
| format |
Article |
| author |
Chen, Qianzhi Zhang, Lulu Chen, Man-Tai Zhao, Ou |
| author_sort |
Chen, Qianzhi |
| title |
Experimental investigation and predictive models of membrane residual stresses in S690 high strength steel welded π-shaped and cruciform sections |
| title_short |
Experimental investigation and predictive models of membrane residual stresses in S690 high strength steel welded π-shaped and cruciform sections |
| title_full |
Experimental investigation and predictive models of membrane residual stresses in S690 high strength steel welded π-shaped and cruciform sections |
| title_fullStr |
Experimental investigation and predictive models of membrane residual stresses in S690 high strength steel welded π-shaped and cruciform sections |
| title_full_unstemmed |
Experimental investigation and predictive models of membrane residual stresses in S690 high strength steel welded π-shaped and cruciform sections |
| title_sort |
experimental investigation and predictive models of membrane residual stresses in s690 high strength steel welded π-shaped and cruciform sections |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/176038 |
| _version_ |
1806059821672169472 |