Experimental study on the flexural behavior of steel tube slab composite beams and key parameters optimization
Author(s): |
Pengjiao Jia
Wen Zhao Yongping Guan Jiachao Dong Qinghe Wang Cheng Cheng |
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Medium: | journal article |
Language(s): | English |
Published in: | Advances in Structural Engineering, April 2019, n. 11, v. 22 |
Page(s): | 136943321984433 |
DOI: | 10.1177/1369433219844335 |
Abstract: |
This work presents an experimental study on the flexural behavior of steel tube slab composite beams subjected to pure bending. The main design elements considered in the work are the flange thickness, reinforcement ratio of high strength bolts, spacing between the tubes, and transverse patterns of the tube connections. Based on nine flexural experiments on simply supported steel tube slab specimens, the failure process and crack development in steel tube slab specimens, and their load–deflection curves are investigated. The results of the laboratory tests show that the welding of the bottom flange significantly improves the flexural capacity of the steel tube slab structure. In addition, a lower concrete's compressive strength improves the ductility of the steel tube slab specimens. Moreover, the flexural capacities predicted from the design guidelines are in good agreement with the experimental test results. Finally, based on the numerical simulations using the ABAQUS software, a numerical model is established to further investigate the effect of the additional parameters on the flexural capacity of steel tube slab structures. The numerical results suggested that the diameter of the steel bolts and the reinforcement ratio have a limited effect on the flexural bearing capacity of the steel tube slab beams, and the ultimate bearing capacity increases linearly along with increase in the diameter of the steel bolts and the reinforcement ratio in a certain range. |
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data sheet - Reference-ID
10312405 - Published on:
28/06/2019 - Last updated on:
22/07/2019