A Numerical Analysis of Infilling-Wall Multi-Functional Vibration Reduction


Article Preview

Based on the experimental study, this paper analyzes the stress given by series of Structured Infilling-walls reducing vibration multi-functionally in the help of the finite element analysis software, ANSYS. It is a comprehensive comparative analysis that different structures, thickness of walls, storeys, and spans are included. The conclusion is drawn that filling-wall can improve the mechanical properties of multi-functional vibration-reducing structure of infilling-wall, which provides theoretical evidence for infilling wall multi-functional vibration-reducing structure under different circumstances that the infill wall stand the proportion provides certain theoretical basis. The appropriate brittle anti-pressure pieces can be fixed according to the comparative finding which also contributes a lot to the achievement of the purpose of this project.



Advanced Materials Research (Volumes 291-294)

Edited by:

Yungang Li, Pengcheng Wang, Liqun Ai, Xiaoming Sang and Jinglong Bu






J. W. Zheng et al., "A Numerical Analysis of Infilling-Wall Multi-Functional Vibration Reduction", Advanced Materials Research, Vols. 291-294, pp. 2055-2059, 2011

Online since:

July 2011




[1] Chao Wan: The RC frame structures to fill walls seismic performance influence and countermeasures. Wuhan university of technology. 2009: 10-27.

[2] Bofang Zhu. Composition principle and application of finite element method [M]. beijing: China water conservancy and hydropower press, 1998. (in chinese).

[3] Ming-min Zhou: Cryogenic architecture technology. Vol. 10(2009),P68.

[4] Mohammad Aliaari. development Of Seismic Infill Wall Isolator Subframe (siwis) System[D]. (2005).

In order to see related information, you need to Login.