Hysteretic performance of circular hollow section tubular joints with collar-plate reinforcement

Welded tubular joints have a weak stiffness in the chord radial direction due to the hollow section, and failure frequently occurs mostly on the chord surface along the weld toe. In the past, collar-plate has been proven to be effective in improving the stiffness and thus increasing the load carryin...

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Bibliographic Details
Published in:Journal of constructional steel research 2011-12, Vol.67 (12), p.1936-1947
Main Authors: Shao, Yong-Bo, Lie, Seng-Tjhen, Chiew, Sing-Ping, Cai, Yan-Qing
Format: Article
Language:English
Subjects:
Axial cyclic loading
Bearing strength
Collar-plate reinforcement
Cyclic loads
Ductility
Energy dissipation
Failure
Fatigue (materials)
Hysteresis
Hysteretic behavior
Load carrying capacity
Reinforcement
Tee joints
Tubular joints
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Summary:Welded tubular joints have a weak stiffness in the chord radial direction due to the hollow section, and failure frequently occurs mostly on the chord surface along the weld toe. In the past, collar-plate has been proven to be effective in improving the stiffness and thus increasing the load carrying capacity of a tubular joint. This paper reports the results of a further study on investigating the effect of collar-plate reinforcement on the hysteretic behavior of a welded tubular joint. Overall, a total of 4 tubular T-joints with collar-plate reinforcement together with 4 corresponding un-reinforced specimens are studied experimentally. In the experimental tests, quasi-static axial cyclic loading is applied to these specimens. The hysteretic performance of the reinforced and un-reinforced T-joint specimens is then evaluated from the hysteretic curves, ductility and the energy dissipation ratio etc. Based on the experimental results, it is found that the T-joint specimens with collar-plate reinforcement can dissipate more energy before failure when they are subjected to cyclic loading compared to the un-reinforced ones, and thus they have a more ductile characteristic. Such ductility is attributed to the improved deformed capacity as well as the increased load carrying capacity of the reinforced T-joints. ► Hysteretic performance on collar plate reinforced tubular T-joints are analyzed. ► Experimental test and finite element method are both used in the analysis. ► Collar plate reinforcement can improve the hysteresis of tubular T-joints. ► Reinforcing efficiency is assessed based on parametric study.
ISSN:0143-974X
1873-5983
DOI:10.1016/j.jcsr.2011.06.010