z-logo
Premium
Comparison of HST and WO Shear Connector Behaviour in Composite Slim Floor
Author(s) -
Baharom Shahrizan,
Hosseinpour Emad,
Majdub Mohamed S.
Publication year - 2021
Publication title -
ce/papers
Language(s) - English
Resource type - Journals
ISSN - 2509-7075
DOI - 10.1002/cepa.1348
Subject(s) - cable gland , flange , ductility (earth science) , materials science , structural engineering , shear (geology) , slab , composite number , composite material , beam (structure) , shear strength (soil) , engineering , geology , mechanical engineering , creep , soil science , soil water
Composite steel‐concrete slim floor construction is an economical floor system proposing minimum floor depth and fast construction besides architecture requirements. In this system, the concrete slab is supported on the lower flange of the steel beam using either in‐situ or pre‐cast technique, which eliminates the use of the down‐stand beam, hence giving a flat look. Hollow steel tube (HST) shear connector is proposed to avoid premature failure that could occur in concrete and steel beam web when the web openings (WO) connectors were used. In this paper, the comparison of push‐out test results between HST and WO to evaluate their ultimate shear load and ductility performance of these type of connectors. The varied parameters were the concrete compressive strength and shape of the HST and WO; the circular, rectangular and square. The results showed that the circular and square HST connectors achieved shear capacities 6.3 and 8.0 times higher than those with the WO type, respectively. Furthermore, the ductility of the specimens increased by 3‐4 times when the HST was used compared to WO. It shows that providing the HST significantly improved its ultimate shear load and ductility performance compared to WO.

This content is not available in your region!

Continue researching here.

Having issues? You can contact us here