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Introducing new rigid I-beam to box column connections by using a stiffened channel link
Allah Reza Moradi Garoosi,Mehrzad Tahamouli Roudsari,Morteza Torkaman,Shahab Bonyadirad,Ali Saeedmanesh,Khalil soleimani,Hosein Reza Lotfi,Roya Jowkar,Ali Alipour 국제구조공학회 2021 Steel and Composite Structures, An International J Vol.41 No.4
The aim of this study is to present a new and suitable connection for I-shaped beams and box columns that is both constructionally convenient to implement and reliable in terms of its performance. Six full-scale experimental samples were constructed and subjected to cyclic Quasi-static loading. The first sample included an I-shaped beam which was directly connected to a box column, the second sample incorporated a channel link, and stiffened channel links were used in the remaining four samples. The results show that compared to the direct connection, using the stiffened channel link significantly improves the performance of the connection and increases its ultimate strength and ductility by 58% and 70%, respectively. Also, these connections satisfy the code-specified criteria for special moment resisting frames. They are therefore a suitable detail for rigid I-shaped-beam-to-box-column connections in seismically active regions.
Mehrzad Tahamouli Roudsari,Shohreh Sohaei,Morteza Torkaman,Seyed Ali Safaee,Salar Tahmasebi,Saleh Mohammadi,Mohammad Mehdi Ghiasvand 한국강구조학회 2020 International Journal of Steel Structures Vol.20 No.2
Connections play an important role in the response of steel moment resisting frames to seismic loading. Prequalified rigid connections are applicable to I-shaped or box columns. In I-shape beam to concrete-filled tube (CFT) column connections, continuity and doubler plates cannot be added to the column. Various details have been proposed to address this issue, many of which are not constructionally convenient to implement. The aim of this study is to present a simple and suitable detailing for I-shape beam to concrete-filled tube column connections. To that end, six full-scale experimental samples were built and subjected to cyclic quasi-static loading. In the samples, stiffened and un-stiffened channel links were used to connect the beam to the column. In each sample, the stiffeners were installed on a different position on the channel link. The results showed that compared to the connection in which the beam is directly connected to the column, using the stiffened channel link with stiffeners along the beam’s flange increases the strength and ductility of the connection by 12% and 72%, respectively. Considering their desirable performance and easy implementation, these connections can be considered as a suitable detailing for I-shape beam to CFT column connections in seismic regions.