Browse > Article
http://dx.doi.org/10.1007/s13296-018-0101-3

Experimental Study on Low Cyclic Loading Tests of Steel Plate Shear Walls with Multilayer Slits  

Lu, Jinyu (Key Lab of Concrete and Prestressed Concrete Structures of Ministry of Education, Southeast University)
Yu, Shunji (School of Civil Engineering, Southeast University)
Qiao, Xudong (School of Civil Engineering, Southeast University)
Li, Na (School of Civil Engineering, Nanjing Forestry University)
Publication Information
International journal of steel structures / v.18, no.4, 2018 , pp. 1210-1218 More about this Journal
Abstract
A new type of earthquake-resisting element that consists of a steel plate shear wall with slits is introduced. The infill steel plate is divided into a series of vertical flexural links with vertical links. The steel plate shear walls absorb energy by means of in-plane bending deformation of the flexural links and the energy dissipation capacity of the plastic hinges formed at both ends of the flexural links when under lateral loads. In this paper, finite element analysis and experimental studies at low cyclic loadings were conducted on specimens with steel plate shear walls with multilayer slits. The effects caused by varied slit pattern in terms of slit design parameters on lateral stiffness, ultimate bearing capacity and hysteretic behavior of the shear walls were analyzed. Results showed that the failure mode of steel plate shear walls with a single-layer slit was more likely to be out-of-plane buckling of the flexural links. As a result, the lateral stiffness and the ultimate bearing capacity were relatively lower when the precondition of the total height of the vertical slits remained the same. Differently, the failure mode of steel plate shear walls with multilayer slits was prone to global buckling of the infill steel plates; more obvious tensile fields provided evidence to the fact of higher lateral stiffness and excellent ultimate bearing capacity. It was also concluded that multilayer specimens exhibited better energy dissipation capacity compared with single-layer plate shear walls.
Keywords
Steel plate shear wall with slits; Multilayer slits; Experimental study; Hysteresis; Ultimate bearing capacity;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Alavi, E., & Nateghi, F. (2013). Experimental study of diagonally stiffened steel plate shear walls. Journal of Structural Engineering, 139(11), 1795-1811.   DOI
2 Cao, Z. G., Du, P., Qiu, X. W., & Fan, F. (2014). Hysteretic behavior and type selection of three kinds of thin steel plate shear wall. Journal of Harbin Institute of Technology, 10, 10-16. (in Chinese).
3 Chan, R., & Albermani, F. (2008). Experimental study of steel slit damper for passive energy dissipation. Engineering Structures, 30, 1058-1066.   DOI
4 Chen, Y. Y., Ning, Y. Q., & Jiang, Lu. (2012). Experimental study on seismic behavior of steel frame shear wall with slits. Journal of Building Structure, 33(7), 133-139. (in Chinese).
5 Clayton, P. M., Tsai, C. Y., & Berman, J. W. (2015). Comparison of web plate numerical models for self-centering steel pate shear walls. Earthquake Engineering and Structural Dynamics, 44(12), 2093-2110.   DOI
6 Cortes, G., & Liu, J. (2011). Experimental evaluation of steel slit panel-frames for seismic resistance. Journal of Constructional Steel Research, 67, 181-191.   DOI
7 Guo, H. C., Hao, J. P., & Liu, Y. H. (2015). Behaviors of stiffened and unstiffened steel plate shear walls considering joint properties. Thin-Walled Structures, 97, 53-62.   DOI
8 Guo, L. H., Jia, M. M., Li, R., & Zhang, S. M. (2013). Hysteretic analysis of thin steel plate shear walls. International Journal of Steel Structures, 13(1), 163-174.   DOI
9 Guo, L. H., Ma, X. B., & Zhang, S. M. (2012). Experimental research on steel plate shear wall with slits. Engineering Mechanics, 29(03), 133-142. (in Chinese).
10 Hebdon, M., Lloyd, J., & Liu, J. (2012). Practical design considerations for steel slit panel frames. In Structures congress 2012(pp. 1577-1585). ASCE.
11 Hitaka, T., & Matsui, C. (2003). Experimental study on steel shear wall with slits. Journal of Structural Engineering, 129(5), 586-595.   DOI
12 Koken, A., & Koroglu, M. A. (2015). Experimental study on beamto-column connections of steel frame structures with steel slit dampers. Journal of Performance of Constructed Facilities, 29(2), 04014066.   DOI
13 Kong, Z. A., Wang, T., & Shi, W. (2015). Experimental study on mechanical properties of steel dampers with slits. China Civil Engineering Journal, 48(09), 11-22. (in Chinese).
14 Lee, C. H., Ju, Y. K., & Min, J. K. (2015). Non-uniform steel strip dampers subjected to cyclic loadings. Engineering Structures, 99, 192-204.   DOI
15 Lu, J. Y., Qiao, X. D., Liao, J., & Tang, Y. (2016). Experimental study and numerical simulation on steel plate shear walls with nonuniform spacing slits. International of Journal of Steel Structures., 16(4), 1373-1380.   DOI
16 Lu, J. Y., Tang, Y., Shu, G. P., & Wang, H. H. (2014). Hysteretic behavior of steel plate shear wall with slits of unequal height. Journal of Zhejiang University (Engineering Science), 48(11), 1968-1975. (in Chinese).
17 Lu, J. Y., Wang, H. H., Yan, L. N., & Fan, S. G. (2013). Study on hysteretic behavior of stiffened steel plate shear wall with slits. Engineering Mechanics, 30(3), 214-223. (in Chinese).
18 Wang, M., & Yang, W. G. (2015). Hysteretic behaviors study of thin steel plate shear wall structures. Journal of Building Structures, 36(1), 68-77. (in Chinese).
19 Shao, J. H., Gu, Q., & Shen, Y. K. (2008). Seismic performance evaluation of steel frame-steel plate shear walls system based on the capacity spectrum method. Journal of Zhejiang University (Science A), 9(3), 322-329.   DOI
20 Sun, F. F., Wang, W. T., & Liu, G. R. (2011). Theoretical analysis and numerical simulation of steel plate shear wall with slits. Progress in Steel Building Structures, 13(05), 37-43. (in Chinese).
21 Zhong, Y. B., Zhang, S. M., & Ma, X. B. (2006). Research of shear resistance static behaviors of steel-plate shear walls with slits. Journal of Harbin Institute of Technology, 38(12), 2054-2059. (in Chinese).
22 Nie, J. G., Fan, J. S., & Huang, Y. (2013). Experimental study on steel plate shear walls. Journal of Building Structures, 31(9), 1-8. (in Chinese).