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ارزیابی عددی رفتار چرخهای دیوار برشی بتنآرمه دارای بازشو مقاومسازی شده با کامپوزیت CFRP | ||
| نشریه مهندسی عمران امیرکبیر | ||
| مقاله 12، دوره 54، شماره 10، دی 1401، صفحه 3857-3878 اصل مقاله (3.46 M) | ||
| نوع مقاله: مقاله پژوهشی | ||
| شناسه دیجیتال (DOI): 10.22060/ceej.2022.20578.7470 | ||
| نویسندگان | ||
| فاطمه ظهیری؛ علی خیرالدین؛ مجید قلهکی* | ||
| دانشکده مهندسی عمران، دانشگاه سمنان، سمنان، ایران | ||
| چکیده | ||
| امروزه استفاده از دیوارهای برشی بتنآرمه به عنوان سیستم سازهای باربر جانبی به علت عملکرد مطلوب در شکلپذیری، مورد استقبال طراحان قرار گرفته است. با این حال ایجاد بازشو در دیوار برشی بتنآرمه به دلیل مسائل معماری که امری اجتنابناپذیر است، سبب کاهش مقاومت، سختی و شکلپذیری دیوار برشی میشود که جهت جبران این ضعفها موضوع مقاومسازی دیوار برشی بتنآرمه مطرح میگردد. در مقاله حاضر ابتدا یک نمونه آزمایشگاهی دیوار برشی بتنآرمه بدون بازشو در نرمافزار ABAQUS مورد صحتسنجی قرار گرفت. پس از صحتسنجی نمونه مورد نظر به ارزیابی رفتار چرخهای دیوار برشی بتنآرمه دارای بازشو مقاومسازی شده با هشت طرح مختلف به صورت افقی، عمودی، مورب و ترکیبی توسط ورقهای مسلح شده با الیاف کربن (CFRP) در نرمافزار اجزا محدود ABAQUS پرداخته شده است. جهت تحلیل استاتیکی غیرخطی، نمونهها تحت بارگذاری جانبی چرخهای قرار گرفته و پارامترهای مختلفی از قبیل سختی، تغییر مکان و شکلپذیری مورد بررسی و مقایسه واقع شدهاند. نتایج به صورت منحنیهای ظرفیت (نیرو-تغییر مکان)، شکلپذیری، کانتور خرابی فشاری و کششی ارائه گردید. همانطور که نتایج نشان میدهد مقاومسازی دیوارهای برشی بتنآرمه دارای بازشو باعث افزایش مقاومت خمشی، برشی و شکلپذیری میگردد. نتایج نشان داد که نمونه RCSW8 به مقدار 12% نسبت به نمونه مرجع ظرفیت باربری افزایش پیدا کرده است. سختی نمونه RCSW8 به میزان 15% افزایش یافته و شکلپذیری بهبود یافته است. | ||
| کلیدواژهها | ||
| دیوار برشی بتنآرمه؛ رفتار چرخهای؛ مقاومسازی؛ کامپوزیت CFRP؛ اجزا محدود | ||
| موضوعات | ||
| دیوارهای برشی | ||
| عنوان مقاله [English] | ||
| Evaluation Cyclic Behavior of Concrete Shear Wall with Opening Retrofitting with Composite | ||
| نویسندگان [English] | ||
| fatemeh zahiri؛ ali kheyroddin؛ majid gholhaki | ||
| Faculty of Civil Engineering - Semnan UNniversity | ||
| چکیده [English] | ||
| In recent years, reinforced concrete (RC) shear walls have been welcomed by structural designers with regard to their desirable seismic performance in terms of ductility. Most of the time, creating an opening in the RC shear wall due to architectural issues, which is inevitable, results in reducing the strength, ductility and stiffness of the wall. For this reason, the issue of retrofitting the RC shear walls is developed to solve these weaknesses. In this paper, first, a laboratory sample of the reinforced concrete shear wall without opening was validated in ABAQUS software. After verification of the sample, the cyclic shear wall behavior of reinforced concrete with retractable openings with eight different designs horizontally, vertically, diagonally and combined by carbon fiber reinforced sheets (CFRP) in ABAQUS finite element software has been evaluated. For nonlinear static analysis, the specimens were subjected to lateral loading, cycling, and various parameters such as stiffness, displacement, and ductility were examined and compared. The results were presented in the form of capacity (force-displacement) curves, ductility, compressive and tensile failure contours. As the results show, reinforcement of shear walls of reinforced concrete with opening increases flexural strength, shear and ductility. The results showed that the RCSW8 sample increased by 12% compared to the reference sample bearing capacity. The hardness of the RCSW8 sample is increased by 15% and the ductility is improved. | ||
| کلیدواژهها [English] | ||
| RC shear wall, Cyclic behavior, Retrofitting, Composite, Finite element | ||
| مراجع | ||
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[1] G. Pachideh, M. Gholhaki, Evaluation of Concrete Filled Steel Tube Column Confined with FRP, J. Test. Eval, 48 (2020) 4343-4354. [2] A. Kheyroddin, Shear Wall, Semnan University, Semnan, 1395. (in persian). [3] G. Pachideh, M. Gholhaki, M. Kafi, Experimental and numerical evaluation of an innovative diamond-scheme bracing system equipped with a yielding damper, Steel and Composite Structures, 36(2) (2020) 197-211. [4] G. Pachideh, M. Kafi, M. Gholhaki, Evaluation of cyclic performance of a novel bracing system equipped with a circular energy dissipater, in: Structures, Elsevier, 2020, pp. 467-481. [5] C. Seminar, NEHRP Guidelines for the Seismic Rehabilitation of Buildings (FEMA 273), Building Seismic Safety Council: Washington, DC, USA, (1997). [6] A. Kheyroddin, M.K. Sharbatdar, Reinforcement of reinforced concrete structures with the help of steel and composite sheets FRP and profils, Semnan University, Semnan, 1395. (in persian). [7] M. Fintel, Performance of buildings with shear walls in earthquakes of the last thirty years, PCI journal, 40(3) (1995) 62-80. [8] B. Li, C.L. Lim, Tests on seismically damaged reinforced concrete structural walls repaired using fiber reinforced polymers, (2012). [9] G. Pachideh, M. Gholhaki, An experimental investigation into effect of temperature rise on mechanical and visual characteristics of concrete containing recycled metal spring, Structural Concrete, 22(1) (2021) 550-565. [10] G. Pachideh, M. Gholhaki, Assessment of post-heat behavior of cement mortar incorporating silica fume and granulated blast-furnace slag, Journal of Structural Fire Engineering, (2020). [11] A.A. KHEYR, H. Naderpour, Nonlinear finite element analysis of composite RC shear walls, (2008). [12] D. Mostofinejad, M.M. Anaei, Effect of confining of boundary elements of slender RC shear wall by FRP composites and stirrups, Engineering Structures, 41 (2012) 1-13. [13] K.F.O. El-Kashif, A.K. Adly, H.A. Abdalla, Finite element modeling of RC shear walls strengthened with CFRP subjected to cyclic loading, Alexandria Engineering Journal, 58(1) (2019) 189-205. [14] J.-y. Wang, M. Sakashita, S. Kono, H. Tanaka, W.-j. Lou, Behavior of reinforced concrete structural walls with various opening locations: experiments and macro model, Journal of Zhejiang University SCIENCE A, 11(3) (2010) 202-211. [15] J. Wang, M. Sakashita, S. Kono, H. Tanaka, Shear behaviour of reinforced concrete structural walls with eccentric openings under cyclic loading: experimental study, The Structural Design of Tall and Special Buildings, 21(9) (2012) 669-681. [16] M. Mosoarca, V. Stoian, Seismic energy dissipation in structural reinforced concrete walls with staggered openings, J Appl Eng Sci JAES, 2(15) (2012) 71-78. [17] H. Jiang, B. Wang, X. Lu, Experimental study on damage behavior of reinforced concrete shear walls subjected to cyclic loads, Journal of earthquake engineering, 17(7) (2013) 958-971. [18] M. Marius, Seismic behaviour of reinforced concrete shear walls with regular and staggered openings after the strong earthquakes between 2009 and 2011, Engineering Failure Analysis, 34 (2013) 537-565. [19] M. Mosoarca, Failure analysis of RC shear walls with staggered openings under seismic loads, Engineering Failure Analysis, 41 (2014) 48-64. [20] M.M. Lima, J.H. Doh, M.N. Hadi, D. Miller, The effects of CFRP orientation on the strengthening of reinforced concrete structures, The Structural Design of Tall and Special Buildings, 25(15) (2016) 759-784. [21] C. Popescu, G. Sas, C. Sabau, T. Blanksvärd, Effect of cut-out openings on the axial strength of concrete walls, Journal of Structural Engineering, 142(11) (2016). [22] K. Behfarnia, A. Shirneshan, A numerical study on behavior of CFRP strengthened shear wall with opening, Comput Concrete, 19(2) (2017) 179-189. [23] M.M. Lima, J.-H. Doh, M.N. Hadi, Experimental study on RC walls with opening strengthened by externally bonded CFRP, Journal of Composites for Construction, 23(2) (2019) 04019008. [24] S.A. Hosseini, A. Kheyroddin, M. Mastali, An experimental investigation into the impacts of eccentric openings on the in-plane behavior of squat RC shear walls, Engineering Structures, 197 (2019) 109410. [25] A. Manual, ABAQUS 6.14 Analysis User's Manual, in, Online Documentation Help: Dassault Systemes, 2014. [26] W. Zhang, E.E. Seylabi, E. Taciroglu, An ABAQUS toolbox for soil-structure interaction analysis, Computers and Geotechnics, 114 (2019) 103143. [27] M. Yekrangnia, Abaqus Practical Guide with Structural Civil Engineering and Geotechnical Problems Civil Engineering Publications, 1393. (in persian). | ||
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