Experimental Study on Normal-Section Bearing Capacity of Steel Reinforced High-Strength Concrete L-Shape Short Pier Shear Wall

Yi Sheng Su; Jin Yun Quan; Min Cai; Shu Fang Zheng; Yi Lu Wu

doi:10.4028/www.scientific.net/AMR.446-449.661

Paper Titles

Nonlinear Stability Analysis of Cylindrical Double-Deck Reticulated Shallow Shells under Wind Load
p.642

A Discussion about the Improvement of Finite Element Analysis Units of Castellated Beam
p.648

Numerical Simulation of Effect of Fracture Distribution on Failure Mechanism of Tunnel
p.652

Numerical Simulation Research about Group High-Rise Buildings around Wind Environment
p.657

Experimental Study on Normal-Section Bearing Capacity of Steel Reinforced High-Strength Concrete L-Shape Short Pier Shear Wall
p.661

Reliability Analysis of Concrete-Filled Tube Column
p.667

Experimental Research on Seismic Performance of Cast-In Situ RC Grillage Shear Walls Formed with Heat Preservation Hollow Blocks
p.672

Research on Serpiginous Bars Connectors of Steel-Concrete Composite Beams
p.679

Seismic Behaviour of Reinforced Gangue Concrete Columns
p.683

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 446-449Experimental Study on Normal-Section Bearing...

Experimental Study on Normal-Section Bearing Capacity of Steel Reinforced High-Strength Concrete L-Shape Short Pier Shear Wall

Abstract:

Based on the experimental study of normal-section bearing capacity of four steel reinforced high-strength concrete (SRHC) L-shape short pier shear walls with two-way eccentric compressive load, this thesis discussed the failure pattern and working mechanism and get some general laws about normal-section baring capacity of this kind of specimens. The research results show that: the failure pattern of SRHC L-shape short pier shear wall with two-way eccentric compressive load is classified into two types-large eccentric compression and small eccentric compression; the sectional strain basically fit the plane-section assumption; steel and concrete can practically work cooperatively until the specimens are damaged and the steel of compressive region yielded; the normal section baring properties of the perforated frame member and the trussed frame member were fairly close to each other and the trussed frame has no advantage compared with the perforated one.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 446-449)

Pages:

661-666

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.446-449.661

Citation:

Cite this paper

Online since:

January 2012

Authors:

Yi Sheng Su, Jin Yun Quan, Min Cai, Shu Fang Zheng, Yi Lu Wu

Keywords:

Bearing Capacity of Normal Section, L-Shaped Short Pier Shear Wall, Steel Reinforced High-strength Concrete, Two-Way Eccentric Compressive Load

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] Haifeng Liang and Wenxiong Li: Sichuan Building Science, 2010, 36(5):P37-41. In Chinese.

Google Scholar

[2] Xiaolei Li, Qingning Li and Pinle Zhang: Industrial Construction, 201, 41(3):P73-75. In Chinese

Google Scholar

[3] Bo Jia: Experimental study on seismic behavior of steel reinforced high strength concrete short pier shear wall with T-shaped section, (Nanning, Guangxi University, a master's degree thesis, 2009). In Chinese

Google Scholar

[4] Ping Wang: Theory study on seismic behavior of steel reinforced high strength concrete short pier shear wall with T-shaped section, (Nanning: Guangxi University, a master's degree thesis, 2009). In Chinese

Google Scholar

[5] Yisheng Su, Feipeng Hu and Delei Yang: Journal of Guangxi University-Natural Science Edition, 2006, 30(004);P272-274. In Chinese

Google Scholar

[6] Zongping Chen, Xide Zhang, Yisheng Su and Hongtie Zhao: Journal of Xi'an Architecture and technology University-Natural Science Edition,2008(001).In Chinese

Google Scholar

[7] Pinle Zhang, Qingning Li and Xiaolei Li: Journal of Earthquake Engineering and Engineering Vibration, 2010(004). In Chinese

Google Scholar

[8] Yazhou Miao, Zongping Che, Yisheng Su and Bo Jia: Building Structure,2010(008) In Chinese

Google Scholar