Abstract
Modified blind bolts (Hollo-Bolt) and a locally strengthened steel tube column in the panel zone were created to overcome the moment-resisting problem for the bolted connections between concrete-filled hollow section columns and open section beams and to enhance the performance of connections. The cyclic loading was conducted on a total of six modified anchored blind bolted flush end-plate connections to concrete-filled steel tube (CFST) columns. The key parameters investigated were the tube wall thickness, end-plate thickness, blind bolt anchorage method, and beam section. The failure mode, hysteretic behavior, strength, stiffness, ductility, and energy dissipation capacity of the connections were analyzed and evaluated with all details. The results indicated that connections with modified anchored blind bolts and locally strengthened steel tubes could avoid the premature failure of CFST column and exhibit an improved behavior with a favorable strength, stiffness, and stiffness degradation. The test observations reveal two representative failure modes, and the tube wall thickness and blind bolt anchorage method have a significant effect on the resultant failure mode. Moreover, the use of thin endplate and weak beam can effectively enhance the hysteretic behavior of joints, ductility, and energy dissipation capacity; and the change in anchoring method has little effect on the stiffness. Finite element (FE) analysis models were established for the aforementioned connections. The numerical models were validated against the experimental results and exhibited good agreement. Finally, based on the component method, an initial stiffness calculation method was established for the connections.
Highlights
Frames with concrete-filled steel tube (CFST) columns have been widely used in modern construction, primarily because of the high structural efficiency of this type of column and the substantial savings with respect to cost and building time of such a construction [1]
During loading of the first three drifts, very small gaps were observed between the end-plate and column face, and no obvious deformation appeared in various components; during loading of the later stage, there were mainly two typical failure modes
The observed results demonstrated that the application of the modified anchored blind bolts (Hollo-Bolt) and a locally strengthened steel tube column in the panel zone can effectively avoid the premature anchorage failure and CFST column damage for the bolted connections to square CFST columns in the moment-resisting frames
Summary
Frames with concrete-filled steel tube (CFST) columns have been widely used in modern construction, primarily because of the high structural efficiency of this type of column and the substantial savings with respect to cost and building time of such a construction [1]. According to the post-earthquake surveys conducted after the 1994 Northridge and 1995 Kobe earthquakes, severe damage and brittle fractures in welded steel moment-resisting structures were observed due to the poor performance of welding in beam-to-column connections [2]. The bolted connections can meet the seismic performance requirements, but it is hard to access inside the steel tube when connecting beams to CFST columns, as openings in the steel tube are costly. To overcome the complexities associated with utilizing open section beams connected to hollow section columns, a new blind-bolting technique has been developed within the past few decades. This technique allows a fastener to be tightened from one side only, without the demand for access into the hollow section column
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