Interaction Analysis of Infilled Frame Structures under Lateral Loads

Song Gu; Zhi Zheng; Xiao Lei Chang; Zong Kai Wang; Zhou Ming Liao; Zhou Xian Liao

doi:10.4028/www.scientific.net/AMM.578-579.559

Paper Titles

Comparative Analysis of Different Modeling Methods for Sandwich Plates Based on LS-DYNA
p.540

Effects of Shape Parameters on Deformation Characteristics of Carrier Pile
p.546

Experimental and Theoretical Studies On High-Rise Building Structure With New Special-Shaped Shear Walls
p.550

Experimental Research on Integral Structures of Mobile Steel Buildings
p.555

Interaction Analysis of Infilled Frame Structures under Lateral Loads
p.559

Methods for Determination of Residual Mortar Content Adhered to Recycled Aggregate
p.568

Resist the Wind Load of Jacking System in High Buildings
p.572

Restriction Effect of Structural Steel to Ultra High Strength Concrete in the Joint Core Area
p.576

Strength Degeneration of SRUHSC Column to RC Beam Joint Subjected to Reversal Cycle Load
p.580

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 578-579Interaction Analysis of Infilled Frame Structures...

Interaction Analysis of Infilled Frame Structures under Lateral Loads

Abstract:

Filler stiffness and confinement effect on the frame structure under horizontal loads, making the earthquake severely damaged in recent years with filler frame structure. Research shows that the actual stiffness frame structure with infill walls and internal force distribution and pure framework significantly different. In this paper, the equivalent model analysis bracing frame structure filler with actual stiffness, elasticity and structure from stage to stage of the internal forces shaping the distribution were analyzed. The results show that the stiffness of the contribution and the confinement effect filler by factors geometry, masonry materials, the impact of the framework is not the same, need to consider the specific analysis and structural design.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volumes 578-579)

Pages:

559-567

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.578-579.559

Citation:

Cite this paper

Online since:

July 2014

Authors:

Song Gu, Zhi Zheng, Xiao Lei Chang, Zong Kai Wang, Zhou Ming Liao, Zhou Xian Liao

Keywords:

Elastic Stiffness, Filler Wall, Frame, Interaction

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] GOVINDAN P, LAKSHMIPATHY M, SANTHAKUNMAR AR. Ductility of infilled frames [J]. Journal of Structure, ACl, 1986, 83(5): 567-576.

Google Scholar

[2] Wanlin Cao, Guangyuan Wang, Jianyou Wu. Lightweight filler wall special-shaped column frame structure stiffness and its attenuation process between the layers[J]. Structural mechanics. 1995, 16(5.

Google Scholar

[3] Chaker Amar A, Cherifati Arslan. Influence of Masonry Infill Panels on the Vibration and Stiffness Characteristics of R/C Frame Buildings[J]. Earthquake Engineering and Structural Dynamics. 1999, 12(3): 1061-1065.

DOI: 10.1002/(sici)1096-9845(199909)28:9<1061::aid-eqe856>3.0.co;2-3

Google Scholar

[4] Qiyun Wu, Jiabi Tian, Xianyi Xu. Brick infilled wall frame in one way and horizontal load under the action of the performance of the research[J]. Journal of Building Structures, 1980, 1(4).

Google Scholar

[5] Yuesheng Tong, Guofang Qian. Brick infilled wall of reinforced concrete frame structure under horizontal load is the performance of the experimental study[J]. Xi 'an metallurgical construction academy of sciences journal, 1982, 14(2): 1-13.

Google Scholar

[6] FEMA 356 (2000). Prestandard and commentary for the resistance-Part 1: General rules, seismic actions seismic rehabilitation of buildings.

Google Scholar

[7] Polyakov S.V. On the Interactions Between Masonry Filler Walls and Enclosing Frame When Loaded in the Plane of the Wall. (English translation by G.L. Cairns, 1963) Translations in Earthquake Engineering Research Institute, Moscow, Russia (1956).

Google Scholar

[8] Hongxia Yan. Floor slab and infilled wall effect on seismic performance of RC frame structure[D]. Beijing jiaotong university, (2012).

Google Scholar

[9] B. Stafford. Smith. Behavior of Square Infilled Frames. Journal of the Structural Division. Proceedings of American Society of Civil Engineers. 1966，92(ST1): 56-70.

Google Scholar

[10] Xianqun Huang. New masonry infilled wall frame structure seismic performance and the elastic-plastic seismic response analysis method study[D]. Huaqiao university, (2011).

Google Scholar

[11] GB50011-2010 Code for seismic design of buildings[S]. Beijing: China building industry press, (2010).

Google Scholar

[12] Peng Qin. Infilled wall frame structure dynamic test and research[D]. Hunan university, (2006).

Google Scholar

[13] Haishui Zhou. Nonlinear finite element analysis with infilled wall frame structure[D]. NanChang: Nanchang university, (2009).

Google Scholar