论文信息 - Behavior of Khorjini connections in fire

Behavior of Khorjini connections in fire

Abstract Beam-to-column connections have been shown to have great influence on structural behavior at ambient and elevated temperatures. When steel-framed structures are subjected to fire, the load-bearing capacity is decreased and the behavior of the joints is of particular concern. In this paper, the behavior of a semi-rigid Khorjini connection is studied at elevated temperatures. Four experimental tests are carried out on this kind of connection at elevated temperatures, and the results are presented as temperature–rotation and moment–rotation curves. Then, finite-element models are developed and compared with the experimental tests. Good agreement was achieved between the model and experiment, confirming that the finite-element method is capable of predicting the behavior of these connections at elevated temperatures.

Amir Saedi Daryan | Hesam Bahrampoor | A. S. Daryan | H. Bahrampoor

[1] Khalifa S. Al-Jabri,et al. Performance of beam-to-column joints in fire—A review , 2008 .

[2] Khalifa S. Al-Jabri,et al. Modelling of unstiffened flush end-plate bolted connections in fire , 2006 .

[3] Bao Guangjian,et al. The design and on-site construction of shenzhen 384 m high level emperor skyscraper in China , 1998 .

[4] J. B. Davison,et al. Displacement measurement in studies of steel T-stub connections , 2001 .

[5] Bre,et al. ELEVATED-TEMPERATURE MOMENT-ROTATION TESTS ON STEELWORK CONNECTIONS. , 1997 .

[6] Khalifa S. Al-Jabri,et al. Behaviour of steel and composite beam-column connections in fire , 1998 .

[7] Colin Bailey. Structural fire design: Core or specialist subject? , 2004 .

[8] Amir Saedi Daryan,et al. Behavior of bolted top-seat angle connections in fire , 2009 .

[9] Amir Saedi Daryan,et al. Behaviour of welded top-seat angle connections exposed to fire , 2009 .

[10] Guo-Qiang Li,et al. Experimental study and spring-component modelling of extended end-plate joints in fire , 2007 .