Earthquake resilient coupling beams: a state-of-the-art review

Earthquake resilient coupling beams: a state-of-the-art review

Coupling beams are significant members to dissipate energy in shear wall structures among which the earthquake resilient coupling beam possesses such advantages as good capacity of energy dissipation, effectiveness of reducing the inter-story drift and the damage to the main structure, as well as th...

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Bibliographic Details
Main Authors: GUAN Minsheng, LI Zhenying, DU Hongbiao
Format: Article
Language:English
Published: Science Press (China Science Publishing & Media Ltd.) 2022-07-01
Series:Shenzhen Daxue xuebao. Ligong ban
Subjects:
structural engineering
replaceable coupling beam
earthquake resilient coupling beam
self-centering coupling beam
self-centering double coupling beam
seismic performance
energy dissipation capacity
Online Access:https://journal.szu.edu.cn/en/#/digest?ArticleID=2440
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Summary:Coupling beams are significant members to dissipate energy in shear wall structures among which the earthquake resilient coupling beam possesses such advantages as good capacity of energy dissipation, effectiveness of reducing the inter-story drift and the damage to the main structure, as well as the replaceable characteristic after earthquakes. Thus it has become one of the research hotspots of earthquake resilient structures. The research advances of the resilient coupling beam are valuated based on how it works from three main aspects: decrease in the cross section of coupling beam, addition of energy dissipation device and improvement in the self-centering ability of coupling beam. Moreover, the characteristics of various resilient coupling beams are put forward, namely, coupling beams with decrease in the cross section, relatively unsophisticated in structure, are thus accessible for construction, whereas their residual deformation is rather augmented after the earthquake; while those with additional energy dissipation device retain good capacity of dissipating energy, the damage to other components is generated for the fairly large deformation of the damper; self-centering coupling beams show superior performance in mitigating the residual deformation effectively, but their beam elongation effect is more significant. Finally, the design scheme related to a novel type of self-centering double coupling beam is proposed in which the structures and advantages of the proposed beam are introduced. This review provides a reference for the seismic design of the coupling beam.
ISSN:1000-2618

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