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Abstrakty
In this study, the behavior of perforated carbon fiber reinforced polymer–steel composite shear walls under a quasi-static cyclic loading was investigated. Four single-story and single-bay specimens were manufactured with an aspect ratio of 1.33: a simple perforated steel shear wall as a reference model and three perforated composite shear walls. The composite specimens differed in their fiber directions. All specimens had a regular staggered pattern of circular openings. Parametric studies on the stiffness, load-carrying capacity, and ductility were carried out using hysteresis curves. As a detailed new study the strain on the infill panel and buckling waves were also monitored. All the fiber directions were found to considerably affect the stress distribution and tension field direction. While, hysteresis curves indicated that orienting the fibers along the tension field considerably affected the curves and the above parameters, but the effect of fiber orientations in the horizontal and vertical was negligible.
Czasopismo
Rocznik
Tom
Strony
365--379
Opis fizyczny
Bibliogr. 26 poz., rys., tab., wykr.
Twórcy
autor
- Department of Civil Engineering, Islamic Azad University, Maragheh Branch, Iran
autor
- Department of Civil Engineering, Urmia University, Iran
Bibliografia
- [1] Lorna Jane Thorburn, Geoffrey L. Kulak, Christopher J. Montgomery, Analysis of Steel Plate Shear Walls, Structural Engineering Report No. 107, Dept. of Civil Engineering, University of Alberta, Edmonton, Alberta, 1983.
- [2] Peter Adam Timler, Geoffrey L. Kulak, Experimental Study of Steel Plate Shear Walls, Structural Engineering Report No. 114, Dept. of Civil Engineering, University of Alberta, Edmonton, Alberta, 1983.
- [3] Eric Werner Tromposch, Geoffrey L. Kulak, Cyclic and Static Behavior of Thin Panel Steel Plate Shear Walls, Structural Engineering Report No. 145, Dept. of Civil Engineering, University of Alberta, Edmonton, Alberta, 1987.
- [4] Terry M. Roberts, Saeid Sabouri-Ghomi, Hysteretic characteristics of unstiffened plate shear panels, Thin- Walled Structures 12 (1991) 145–162.
- [5] Vincent Caccese, Mohamed Elgaaly, Ruobo Chen, Experimental investigation of light-gauge steel plate shear walls under cyclic load, Journal of Structural Engineering, ASCE 119 (2) (1993) 573–587.
- [6] Mohamed Elgaaly, Vincent Caccese, C. Du, Post-buckling behavior of steel-plate shear walls under cyclic loads, Journal of Structural Engineering, ASCE 119 (2) (1993) 588–605.
- [7] Robert G. Driver, Geoffrey L. Kulak, D.J. Laurie Kennedy, Alaa E. Elwi, Cyclic test of four-story steel plate shear wall, Journal of Structural Engineering, ASCE 124 (2) (1998) 112–130.
- [8] Mahmoud Rezai, Seismic Behavior of Steel Shear Walls by Shake Table Testing, Ph.D. Dissertation, University of British Columbia, Vancouver, Canada, 1999.
- [9] Adam S. Lubell, Helmut G.L. Prion, Carlos E. Ventura, Mahmoud Rezai, Unstiffened steel plate shear wall performance under cyclic loading, Journal of Structural Engineering, ASCE 126 (4) (2000) 453–460.
- [10] Jeffrey W. Berman, Michel Bruneau, Experimental investigation of light-gauge steel plate shear walls, Journal of Structural Engineering, ASCE 131 (2) (2005) 259–267.
- [11] CSA, CAN/CSA-S16-01, Limit States Design of Steel Structures, Canadian Standards Association, Mississauga, Ontario, Canada, 2001.
- [12] AISC, ANSI/AISC 341-05, Seismic Provisions for Structural Steel Buildings, American Institute of Steel Construction, Inc., Chicago, IL, 2005.
- [13] Qiuhong Zhao, Abolhassan Astaneh-Asl, Seismic behavior of composite shear wall systems and application of smart structures technology, International Journal of Steel Structures 7 (2007) 69–75.
- [14] Fariborz Nateghi-Alahi, Masoud Khazei-Poul, Analytical study on the strengthened steel plate shear walls by FRP laminate, Procedia Engineering 54 (2013) 377–386.
- [15] Siddhartha Ghosh, Swapnil Bapu Kharmale, Research on steel plate shear wall: past, present and future, Structural Steel and Castings 2 (2010) 57–106.
- [16] Terry M. Roberts, Saeid Sabouri-Ghomi, Hysteretic characteristics of unstiffened perforated steel plates shear panels, Thin-Walled Structures 14 (1992) 139–151.
- [17] Darren Vian, Michel Bruneau, Keh-Chyuan Tsai, Yi-Chung Lin, Special perforated steel plate shear walls with reduced beam section anchor beams, I: Experimental investigation, Journal of Structural Engineering, ASCE 135 (3) (2009) 211–220.
- [18] Anjan Kanti Bhowmick, Gilbert Y. Grondin, Robert G. Driver, Nonlinear seismic analysis of perforated steel plate shear walls, Journal of Constructional Steel Research 94 (2014) 103–113.
- [19] Farzad Hatami, Ali Ghamari, Ali Reza Rahai, Investigating the properties of steel shear walls reinforced with carbon fiber polymers (CFRP), Journal of Constructional Steel Research 70 (2012) 36–42.
- [20] Mohamad Alipour, Ali Reza Rahai, Behavior and characteristics of innovative composite plate shear walls, Procedia Engineering 14 (2011) 3205–3212.
- [21] Rafael Sabelli, Michel Bruneau, Steel Plate Shear Walls. Steel Design Guide, American Institute of Steel Construction, Inc., Chicago, USA, 2006.
- [22] AISC, ANSI/AISC 358-05, Prequalified Connections for Special and Intermediate Steel Moment Frames for Seismic Applications, American Institute of Steel Construction, Inc., Chicago, IL, 2005.
- [23] Ronny Purba, Michel Bruneau, Finite-element investigation and design recommendations for perforated steel plate shear walls, Journal of Structural Engineering, ASCE 135 (11) (2009) 1367–1376.
- [24] ATC-24, Guideline of Cyclic Seismic Testing of Components for Steel Structures, Applied Technology Council, Redwood City, CA, USA, 1992.
- [25] Helmut Krawinkler, Loading histories for cyclic test in support of performance assessment of structural components, in: 3rd International Conference on Advances in Experimental Structural Engineering, San Francisco, 2009.
- [26] Mehdi Hadj Karim Kharrazi, Helmut G.L. Prion, Carlos E. Ventura, Implementation of M-PFI method in design of steel plate walls, Journal of Constructional Steel Research 64 (2008) 465–497.
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę
Typ dokumentu
Bibliografia
Identyfikator YADDA
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