Shaking Table Experimental Study of the Short Pier RC Shear Wall Structures with Concealed Bracing

Cao, Wan Lin; Zhao, Chungui; Xue, Su Duo; Zhang, J. W.

doi:10.1260/136943309788251597

Cited by 5 publications

(2 citation statements)

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“…Cao, Huang and Dong et al [15][16][17] conducted lots of cyclic loading tests and many shaking table tests on short-leg shear wall with concealed bracing. Results mainly showed that ductility and energy dissipation capacity were obviously increased by adding concealed bracing to short-leg shear wall.…”

Section: Short-leg Shear Wall With Concealed Bracingmentioning

confidence: 99%

Seismic Performance Investigation of Research Status and Problems Analysis of Short-Leg Shear Wall

Zhang

2013

AMR

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Short-leg shear wall is a new type of structure form, which is widely used and developed in our country for its reasonable architectural function, mechanical performance and engineering cost. The work further investigates the seismic performance of three kinds of short-leg shear wall. Classified and brief comments about the seismic performance and the exist drawback of the three kinds of shear wall and its application are conducted. Lastly, some useful suggestions and a new structure: Steel reinforced concrete short-leg shear wall with concealed bracing are proposed for the further research.

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Section: Short-leg Shear Wall With Concealed Bracingmentioning

confidence: 99%

Seismic Performance Investigation of Research Status and Problems Analysis of Short-Leg Shear Wall

Zhang

2013

AMR

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“…High rise buildings constructed with concrete shear wall systems are very popular in China because of its excellent seismic performance supplied by its dual seismic defense mechanism, i.e., coupling beams and shear walls [1]. Coupling beams are damaged first when being hit by a fortification earthquake.…”

Section: Introductionmentioning

confidence: 99%

Experimental Study on Replaceable Hybrid Coupling Beams

Wang

Guo

et al. 2012

AMM

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A hybrid coupling beam is developed in this study to render the reinforced concrete (RC) shear wall structure a higher seismic performance. As the first protection from earthquake, the coupling beam is able to dissipate more energy when combined in series with a metallic damper. The strength of the metallic damper is carefully selected so that the RC part of the coupling beam remains elastic, while all plasticity goes into the metallic damper. This mechanism protects the RC part from seismic damage. And the metallic damper can be quickly replaced once it is damaged. This significantly enhances the reparability of entire structure, making it possible to be immediately functioned after earthquakes. The stiffness of the hybrid coupling beam is similar as the traditional RC coupling beam, so that the dynamic characteristics are almost unchanged. In this study, one hybrid coupling beam and one traditional RC beam are experimentally examined. The seismic dissipation capability of the hybrid beam is approximately twice of the traditional beam, and the damage of the RC part of the hybrid beam is very limited.

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Shaking table experimental study of recycled concrete frame-shear wall structures

Zhang

Cao

Meng

et al. 2014

Earthq. Eng. Eng. Vib.

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Shaking Table Experimental Study of the Short Pier RC Shear Wall Structures with Concealed Bracing

Cited by 5 publications

References 0 publications

Seismic Performance Investigation of Research Status and Problems Analysis of Short-Leg Shear Wall

Seismic Performance Investigation of Research Status and Problems Analysis of Short-Leg Shear Wall

Experimental Study on Replaceable Hybrid Coupling Beams

Shaking table experimental study of recycled concrete frame-shear wall structures

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