Seismic Performance Experimental Research on the Multi-Ribbed Composite Wall-Transfer Layer Supported on Frame

Yu Yang He; Quan Yuan

doi:10.4028/www.scientific.net/AMM.438-439.1481

Paper Titles

Earthquake Damage and Design Requirement of Stair in Frame Structure
p.1461

Seismic Performance of Prestressed Reinforced Concrete Piles Reinforced with Nonprestressed Reinforcements
p.1466

Study on Far-Field Ground Motion Characteristics
p.1471

An Improved Source Model for Simulation Near-Field Strong Ground Motion Acceleration Time History
p.1474

Seismic Performance Experimental Research on the Multi-Ribbed Composite Wall-Transfer Layer Supported on Frame
p.1481

Influence of Masonry Infill on the Dynamic Characteristics of RC Frames on Slope Part (I): Background and the Infill Model
p.1485

Influence of Masonry Infill on the Dynamic Characteristics of RC Frames on Slope, Part (II): Seismic Performance
p.1489

ABAQUS Dynamic Elasto-Plastic Analysis in Earthquake-Resistant Structure Design
p.1494

Applications of Explicit FEA in Structural Static and Dynamic Analyses
p.1498

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 438-439Seismic Performance Experimental Research on the...

Seismic Performance Experimental Research on the Multi-Ribbed Composite Wall-Transfer Layer Supported on Frame

Abstract:

In this paper, the shaking table test of a 1/6 scale multi-rib composite wall supported on frame was conducted. The test structure has undergone elastic stage and cracking up the whole process of destruction, the dynamic characteristics of the structure in the various stages of change and the dynamic response were recorded. The shaking table test was in two steps, the first step for modal testing, modal test results such as period and damping; the second step was the seismic test to measure the dynamic characteristics of the test structure, acceleration response and displacement reaction to study the bottom frame ribbed composite wall structure under strong earthquake laws of failure and collapse failure criterion.

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Periodical:

Applied Mechanics and Materials (Volumes 438-439)

Pages:

1481-1484

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.438-439.1481

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Online since:

October 2013

Authors:

Yu Yang He, Quan Yuan

Keywords:

Conversion Layers, Multi-Ribbed Composite Wall, Seismic Performance, Shaking Table Test, Shear Wall Supported on Frame Structure

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References

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