References
- Ahmad, S.H. and Shah, S.P. (1982), "Complete triaxial stress-strain curve for concrete", ASCE J. Struct. Div., 108(4), 728-742.
- Architectural Institute of Japan (2010), AIJ Standard for structural calculation of reinforced concrete structures (Revised 2010), Architectural Institute of Japan, Tokyo, Japan.
- Architectural Institute of Japan (2004), Guidelines for performance evaluation of earthquake resistant reinforced concrete buildings, Architectural Institute of Japan, Tokyo, Japan.
- Architectural Institute of Japan (1998), Report on the Hanshin-Awaji earthquake disaster building series Volume 1: Structural damage to reinforced concrete building, Architecture Institute of Japan, Tokyo, Japan.
- Balkaya, C. and Kalkan, E. (2004), "Three-dimensional effects on openings of laterally loaded pierced shear walls", J. Struct. Eng.-ASCE, 130(10), 1506-1514. https://doi.org/10.1061/(ASCE)0733-9445(2004)130:10(1506)
- Bechtoula, H. and Ousalem, H. (2005), "The 21 May 2003 Zemmouri (Algeria) Earthquake: Damages and disaster responses", J. Adv. Concr. Techno., 3(1) 161-174. https://doi.org/10.3151/jact.3.161
- Brun, M., Labbe, P., Bertrand, D. and Courtois, A. (2011), "Pseudo-dynamic tests on low-rise shear walls and simplified model based on the structural frequency drift", Eng. Struct., 33(3), 796-812. https://doi.org/10.1016/j.engstruct.2010.12.003
- Ciampi, V., Eligehausen, R., Bertero, V.V. and Popov, E.P. (1982), Analytical model for concrete anchorages of reinforcing bars under generalized excitations, Report No. UCB/EERC 82-23, Earthquake Engineering Research Center, University of California, Berkeley, California.
- FINAL/99, Finite elements analysis program for the nonlinear behaviour of concrete structures, ITOCHU Techno-Solutions Corporation.
- Guan, H., Cooper, C. and Lee, D.J. (2010), "Ultimate strength analysis of normal and high strength concrete wall panels with varying opening configurations", Eng. Struct., 32(5), 1341-1355. https://doi.org/10.1016/j.engstruct.2010.01.012
- Japan Building Disaster Prevention Association (2001), Standard for seismic evaluation of existing reinforced concrete buildings, Japan Building Disaster Prevention Association, Tokyo, Japan.
- Kabeyasawa, T., Kabeyasawa, T., Kim, Y., Kabeyasawa, T. and Bae, K. (2009), Tests on reinforced concrete columns with wing walls for hyper-earthquake resistant system, 3rd International Conference on Advances in Experimental Structural Engineering, San Francisco, USA.
- Kabeyasawa, T., Kim, Y., Sato, M., Hyunseong, H. and Hosokawa, Y. (2011), "Tests and analysis on flexural deformability of reinforced concrete columns with wing walls", Proceedings of the 9th Pacific Conference on Earthquake Engineering Building an Earthquake-Resilient Society, Auckland, New Zealand.
- Kim, H.S. and Lee, D.G. (2003), "Analysis of shear wall with openings using super elements", Eng. Struct., 25(8), 981-991. https://doi.org/10.1016/S0141-0296(03)00041-5
- Kupfer, H.B. and Gerstle, K.H. (1973), "Behavior of concrete under biaxial stress", J. Eng. Mech.-ASCE, 99(4), 853-866.
- Lopes, M.S. (2001), "Experimental shear-dominated response of RC walls. Part II: Discussion of results and design implications", Eng. Struct., 23(5), 564-574. https://doi.org/10.1016/S0141-0296(00)00042-0
- Maekawa, K., Pimanmas, A. and Okamura, H. (2003), Nonlinear mechanics of reinforced concrete, Spon Press, London.
- Miao, Z.W., Lu, X.Z., Jiang, J.J. and Ye, L.P. (2006), "Nonlinear FE model for rc shear walls based on multilayer shell element and microplane constitutive model", Proc. Computational Methods in Engineering And Science (EPMESC X), Tsinghua University Press & Springer-Verlag, China.
- Naeim, F., Lew, M., Carpenter, L.D., Youssef, N.F., Rojas, F., Saragoni, G.R. and Adaros, M.S. (2011), "Performance of tall buildings in Santiago, Chile during the 27 February 2010 offshore Maule, Chile earthquake", Struct. Des. Tall Spec., 20(1), 1-16. https://doi.org/10.1002/tal.675
- Naganuma, K. (1991), "Nonlinear analytical model for reinforced concrete panels under in-plane stresses", J. Struct. Constr. Eng., 421, 39-48.
- Naganuma, K. and Ohkubo, M. (2000), "An analytical model for reinforced concrete panels under cyclic stresses", J. Struct. Constr. Eng., 536, 135-142.
- Ono, M. (1995), "Experimental study on reinforced concrete opening wall above opening periphery ratio 0.4, Part1-Part2", Summaries of Technical Papers of Annual Meeting of Architectural Institute of Japan C-2, Structures IV: 147-150.
- Ono, M. and Tokuhiro, I. (1992), "A proposal of reducing rate for strength due to opening effect of reinforced concrete framed shear walls", J. Struct. Constr. Eng., 435, 119-129.
- Park, R. and Paulay, T. (1975), Reinforced concrete structures, John Wiley & Sons, New York.
- Sakurai, M., Kuramoto, H., Matsui, T. and Akita, T. (2008), "Seismic performance of RC shear walls with multiopenings", Proceeding of 14th Word Conference on Earthquake Engineering (14WCEE), Beijing, China.
- Thomson, E.D., Perdomo, M.E., Picon, R., Marante, M.E. and Florez-Lopez, J. (2009), "Simplified model for damage in squat RC shear walls", Eng. Struct., 31(10), 2215-2223. https://doi.org/10.1016/j.engstruct.2009.05.020
- Warashina, M., Kono, S., Sakashita, M. and Tanaka, T. (2008), "Shear behaviour of multi-story RC structural walls with eccentric openings", Proceeding of 14th Word Conference on Earthquake Engineering (14WCEE), Beijing, China.
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