Numerical and experimental study on structural behavior of restrained CHS T-joints in transient fire tests
Experimental and numerical studies have been conducted to investigate the structural behavior of restrained circular hollow section (CHS) T-joints subject to fire. Four CHS T-joints having two different brace-to-chord diameter ratios, 0.47 and 0.69, were tested subject to two kinds of loading: axial...
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sg-ntu-dr.10356-1691322023-07-03T03:59:47Z Numerical and experimental study on structural behavior of restrained CHS T-joints in transient fire tests Zhang, Y. Nguyen, Minh Phuong Fung, Tat Ching Tan, Kang Hai School of Civil and Environmental Engineering Engineering::Civil engineering Fire Test Structural Behavior Experimental and numerical studies have been conducted to investigate the structural behavior of restrained circular hollow section (CHS) T-joints subject to fire. Four CHS T-joints having two different brace-to-chord diameter ratios, 0.47 and 0.69, were tested subject to two kinds of loading: axial brace compression and in-plane bending in fire condition following the iSO-834 fire curve. The two chord ends were connected to reaction A-frames incorporating the thermal restraint effect. The joint behavior was discussed based on maximum deformation, fire resistance and critical temperature. When the joint was under in-plane bending, local plasticization was dominant; the observed failure mode combined global bending and local punching shear when the joint was under brace axial compression. Finite element (FE) models were constructed by incorporating thermal restraints and temperature distributions in the joint regions from the tests. The verified FE models were then adopted to predict the critical temperature of other CHS T-joints where brace-to-chord diameter ratio, load ratio and thermal restraints were taken as variable parameters. Unlike T-joint at ambient temperature, a larger brace-to-chord ratio resulted in a greater critical temperature. Moreover, greater load ratio and thermal restraint caused decrease in fire resistance and critical temperature of CHS T-joint subject to both axial compression and in plane bending. Ministry of Education (MOE) This research was funded by the ARC 2/07 project titled “Failure modes and the ultimate strength of tubular joints under elevated temperatures” from the Ministry of Education, Singapore. 2023-07-03T03:59:47Z 2023-07-03T03:59:47Z 2023 Journal Article Zhang, Y., Nguyen, M. P., Fung, T. C. & Tan, K. H. (2023). Numerical and experimental study on structural behavior of restrained CHS T-joints in transient fire tests. Structures, 48, 511-522. https://dx.doi.org/10.1016/j.istruc.2022.12.075 2352-0124 https://hdl.handle.net/10356/169132 10.1016/j.istruc.2022.12.075 2-s2.0-85145991375 48 511 522 en ARC 2/07 Structures © 2022 Published by Elsevier Ltd on behalf of Institution of Structural Engineers. |
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Engineering::Civil engineering Fire Test Structural Behavior Zhang, Y. Nguyen, Minh Phuong Fung, Tat Ching Tan, Kang Hai Numerical and experimental study on structural behavior of restrained CHS T-joints in transient fire tests |
| description |
Experimental and numerical studies have been conducted to investigate the structural behavior of restrained circular hollow section (CHS) T-joints subject to fire. Four CHS T-joints having two different brace-to-chord diameter ratios, 0.47 and 0.69, were tested subject to two kinds of loading: axial brace compression and in-plane bending in fire condition following the iSO-834 fire curve. The two chord ends were connected to reaction A-frames incorporating the thermal restraint effect. The joint behavior was discussed based on maximum deformation, fire resistance and critical temperature. When the joint was under in-plane bending, local plasticization was dominant; the observed failure mode combined global bending and local punching shear when the joint was under brace axial compression. Finite element (FE) models were constructed by incorporating thermal restraints and temperature distributions in the joint regions from the tests. The verified FE models were then adopted to predict the critical temperature of other CHS T-joints where brace-to-chord diameter ratio, load ratio and thermal restraints were taken as variable parameters. Unlike T-joint at ambient temperature, a larger brace-to-chord ratio resulted in a greater critical temperature. Moreover, greater load ratio and thermal restraint caused decrease in fire resistance and critical temperature of CHS T-joint subject to both axial compression and in plane bending. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Zhang, Y. Nguyen, Minh Phuong Fung, Tat Ching Tan, Kang Hai |
| format |
Article |
| author |
Zhang, Y. Nguyen, Minh Phuong Fung, Tat Ching Tan, Kang Hai |
| author_sort |
Zhang, Y. |
| title |
Numerical and experimental study on structural behavior of restrained CHS T-joints in transient fire tests |
| title_short |
Numerical and experimental study on structural behavior of restrained CHS T-joints in transient fire tests |
| title_full |
Numerical and experimental study on structural behavior of restrained CHS T-joints in transient fire tests |
| title_fullStr |
Numerical and experimental study on structural behavior of restrained CHS T-joints in transient fire tests |
| title_full_unstemmed |
Numerical and experimental study on structural behavior of restrained CHS T-joints in transient fire tests |
| title_sort |
numerical and experimental study on structural behavior of restrained chs t-joints in transient fire tests |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/169132 |
| _version_ |
1772827443846971392 |