- 【Title】Seismic performance assessment of a hybrid coupled wall system with replaceable steel coupling beams
versus traditional RC coupling beams
- 【Abstract】This study assesses the seismic performance of a hybrid coupled wall (HCW) system with replaceable
steel coupling beams (RSCBs) at four intensities of ground motion shaking. The performance of the HCW
system is benchmarked against the traditional reinforced concrete coupled wall (RCW). Nonlinear
numerical models are developed in OpenSees for a representative wall elevation in a prototype 11-story
building designed per modern Chinese codes. Performance is assessed via nonlinear dynamic analysis. The
results indicate that both systems can adequately meet code defined objectives in terms of global and
component behavior. Behavior of the two systems is consistent under service level earthquakes, whereas
under more extreme events, the HCW system illustrates enhanced performance over the RCW system resulting
in peak interstory drifts up to 31% lower in the HCW than the RCW. Larger drifts in the RCW are because
of reduced coupling action induced by stiffness degradation of RC coupling beams, whereas the stable
hysteretic responses and overstrength of RSCBs benefit post-yield behavior of the HCW. Under extreme
events, the maximum beam rotations of the RSCBs are up to 42% smaller than those of the RC coupling
beams. Moderate to severe damage is expected in the RC coupling beams, whereas the RSCBs sustain damage
to the slab above the beam and possible web buckling of shear links. The assessment illustrates the
benefits of the HCW with RSCBs over the RCW system, because of easy replacement of the shear links as
opposed to costly and time-consuming repairs of RC coupling beams.
- 【Keywords】hybrid coupled wall (HCW);replaceable steel coupling beam (RSCB);RC coupling beam;nonlinear
dynamic analysis;seismic fragility;damage assessment
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