- 【标题】Seismic behavior and fragility curves of replaceable steel coupling beams with slabs
- 【摘要】Replaceable steel coupling beams (RSCB) have been proposed as an alternative to conventional
reinforced concrete (RC) coupling beams for enhanced seismic resiliency of coupled wall systems. This
paper presents a series of quasi-static tests conducted to examine the seismic behavior of RSCBs with RC
slabs and to identify reasonable slab configurations that can minimize the damage to RC slabs. A total
of five large-scale specimens were designed and tested. The first four specimens adopted the same end
plate link-to-beam connection but adopted different types of RC slabs, including a composite slab,
bearing slab, isolated slab or slotted slab. The fifth specimen adopted splice plate link-to-beam
connection and a bearing slab. The test results indicate that all specimens developed a large inelastic
rotation capacity of more than 0.05 rad with stable hysteretic response. The presence of RC slabs is
found to have limited effect on the shear strength and inelastic rotation capacity of RSCBs. Some types
of RC slabs increased the initial elastic stiffness of RSCBs, but in the plastic stage, none of the
slabs affected the loading or unloading stiffness. Among those four types of slabs, the composite slab
suffered the most significant damage, as a result of pulling out of shear studs and subsequent pouching
failure of the slab. Compared with the bearing slab or slotted slab, the isolated slab developed much
fewer and smaller cracks, which should allow for easier repair. Based on the observations of this test
and previous tests, four damage states for RSCBs were identified, corresponding to different repair
methods. Fragility curves of RSCBs at various damage states were developed, which can provide the
criteria for seismic performance assessment of RSCBs.
- 【关键词】Replaceable steel coupling beam; RC slab; Cyclic behavior; Slab damage; Crack; Fragility curve
- 【索引】
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