How to cite this paper
Mohammadiasl, M., Baghban, A., Beiranvand, P & Babaali, H. (2023). A study on the effect of thickness and spherical diagonal for LYP Infill Plate of shear walls.Engineering Solid Mechanics, 11(1), 1-10.
Refrences
Ashrafi, H.R., Beiranvand, P., Pouraminian, M., & Moayeri, M.S. (2018). Examining the impact of sheet placement and changes in wave's characteristics on behavior of wavy steel shear wall. Case Studies in Construction Materials, 9, e00180.
Boyajian, D., & Zirakian, T. (2016). Study on Buckling and Yielding Behaviors of Low Yield Point Steel Plates. World Academy of Science, Engineering and Technology, International Journal of Civil and Environmental Engineering, 10(9), 1166-1172.
Chen, S.J., & Jhang, C. (2011). Experimental study of low-yield-point steel plate shear wall under in-plane load. Journal of Constructional Steel Research, 67(6), 977-985.
Guo, H.C., Hao, J.P., & Liu, Y.H. (2015). Behavior of stiffened and unstiffened steel plate shear walls considering joint properties. Thin-Walled Structures, 97, 53-62.
Jebelli, H., & Mofid, M. (2014). Effects of using low yield point steel in steel plate shear walls. The IES Journal Part A: Civil & Structural Engineering, 7(1), 51-56.
Mistakidis, E. (2010). Numerical study of low-yield point steel shear walls used for seismic applications. Engineering computations, 27(2), 257-279.
Nassernia, S., & Showkati, H. (2017). Experimental study of opening effects on mid-span steel plate shear walls. Construction Steel Research, 137, 8-18.
Raisszadeh, A., Rahai, A., & Deylami, A. (2018). Behavior of Steel Plate Shear Wall in Multi Span Moment Frame with Various Infill Plate Connection to Column. Civil Engineering Journal, 4(1), 126-137.
Shahi, N., & Adibrad, M.H. (2017). Finite-element analysis of steel shear walls with low-yield-point steel web plates. Proceedings of the Institution of Civil Engineers-Structures and Buildings, 171(4), 326-337.
Vigh, L.G., Liel, A.B., Deierlein, G.G., Miranda, E., & Tipping, S. (2014). Component model calibration for cyclic behavior of a corrugated shear wall. Thin-Walled Structures, 75, 53-62.
Wang, M., Fahnestock, L.A., Qian, F., & Yang, W. (2017). Experimental cyclic behavior and constitutive modeling of low yield. Construction and Building Material, 131, 696-712.
Lv, Y., Li, L., Wu, D., Chen, Y., Li, Z. X., & Chouw, N. (2019). Shear‐displacement diagram of steel plate shear walls with precompression from adjacent frame columns. The Structural Design of Tall and Special Buildings, 28(5), e1585.
Zirakian, T., & Zhang, J. (2015). Buckling and yielding behavior of unstiffened slender, moderate, and stocky low yield point steel plates. Thin-Walled Structures, 88, 105-118.
Zirakian, T., & Zhang, J. (2015). Seismic design and behavior of low yield point steel plate shear walls. International Journal of Steel Structures, 15(1), 135-151.
Boyajian, D., & Zirakian, T. (2016). Study on Buckling and Yielding Behaviors of Low Yield Point Steel Plates. World Academy of Science, Engineering and Technology, International Journal of Civil and Environmental Engineering, 10(9), 1166-1172.
Chen, S.J., & Jhang, C. (2011). Experimental study of low-yield-point steel plate shear wall under in-plane load. Journal of Constructional Steel Research, 67(6), 977-985.
Guo, H.C., Hao, J.P., & Liu, Y.H. (2015). Behavior of stiffened and unstiffened steel plate shear walls considering joint properties. Thin-Walled Structures, 97, 53-62.
Jebelli, H., & Mofid, M. (2014). Effects of using low yield point steel in steel plate shear walls. The IES Journal Part A: Civil & Structural Engineering, 7(1), 51-56.
Mistakidis, E. (2010). Numerical study of low-yield point steel shear walls used for seismic applications. Engineering computations, 27(2), 257-279.
Nassernia, S., & Showkati, H. (2017). Experimental study of opening effects on mid-span steel plate shear walls. Construction Steel Research, 137, 8-18.
Raisszadeh, A., Rahai, A., & Deylami, A. (2018). Behavior of Steel Plate Shear Wall in Multi Span Moment Frame with Various Infill Plate Connection to Column. Civil Engineering Journal, 4(1), 126-137.
Shahi, N., & Adibrad, M.H. (2017). Finite-element analysis of steel shear walls with low-yield-point steel web plates. Proceedings of the Institution of Civil Engineers-Structures and Buildings, 171(4), 326-337.
Vigh, L.G., Liel, A.B., Deierlein, G.G., Miranda, E., & Tipping, S. (2014). Component model calibration for cyclic behavior of a corrugated shear wall. Thin-Walled Structures, 75, 53-62.
Wang, M., Fahnestock, L.A., Qian, F., & Yang, W. (2017). Experimental cyclic behavior and constitutive modeling of low yield. Construction and Building Material, 131, 696-712.
Lv, Y., Li, L., Wu, D., Chen, Y., Li, Z. X., & Chouw, N. (2019). Shear‐displacement diagram of steel plate shear walls with precompression from adjacent frame columns. The Structural Design of Tall and Special Buildings, 28(5), e1585.
Zirakian, T., & Zhang, J. (2015). Buckling and yielding behavior of unstiffened slender, moderate, and stocky low yield point steel plates. Thin-Walled Structures, 88, 105-118.
Zirakian, T., & Zhang, J. (2015). Seismic design and behavior of low yield point steel plate shear walls. International Journal of Steel Structures, 15(1), 135-151.