This work is licensed under the Creative Commons Attribution 4.0 International License.
Han, Y., & Bao, Y. (2022). Analysis on seismic performance of steel-reinforced concrete-filled circular steel tubular (srcfst) members subjected to post-fire. Materials (Basel, Switzerland), 15(6).Search in Google Scholar
Wang, X., Su, P., Liu, J., & Zhao, S. (2021). Seismic performance of atls modular house based on joint stiffness analysis. Journal of Constructional Steel Research, 183(2), 106770.Search in Google Scholar
Chen, Z., Dong, S., & Du, Y. (2021). Experimental study and numerical analysis on seismic performance of frp confined high-strength rectangular concrete-filled steel tube columns. Thin-Walled Structures, 162(9), 107560.Search in Google Scholar
Mirzaie, F., Mahsuli, M., & Ghannad, M. A. (2017). Probabilistic analysis of soil‐structure interaction effects on the seismic performance of structures. Earthquake Engineering & Structural Dynamics, 46(4), 641-660.Search in Google Scholar
Barbagallo, F., Bosco, M., Marino, E. M., & Rossi, P. P. (2021). Seismic performance and cost comparative analysis of steel braced frames designed in the framework of ec8. Engineering Structures, 240(3), 112379.Search in Google Scholar
Xue, J., Wu, C., Zhang, X., & Qi, Z. (2020). Experimental and numerical analysis on seismic performance of straight‐tenon joints reinforced with friction damper. Structural Control and Health Monitoring, 27(10), e2613.Search in Google Scholar
Wang, X., Ye, A., & Ji, B. (2019). Fragility-based sensitivity analysis on the seismic performance of pile-group-supported bridges in liquefiable ground undergoing scour potentials. Engineering Structures, 198(Nov.1), 109427.1-109427.15.Search in Google Scholar
Chomchuen, P., & Boonyapinyo, V. (2017). Incremental dynamic analysis with multi-modes for seismic performance evaluation of rc bridges. Engineering Structures, 132(FEB.1), 29-43.Search in Google Scholar
Chen, S., & Poongodi, M. (2020). An exhaustive research and analysis on seismic performance of prefabricated concrete shear wall structure. Journal of Vibroengineering, (8).Search in Google Scholar
Yaghmaei-Sabegh, S., & Soltani-Azar, S. (2017). Considering soil-nonlinearity effect on seismic performance evaluation of structures based on pushover analysis. Journal of Earthquake Engineering, 21(5-6), 808-839.Search in Google Scholar
Guo, W., Hu, Y., Liu, H., & Bu, D. (2019). Seismic performance evaluation of typical piers of china’s high-speed railway bridge line using pushover analysis. Mathematical Problems in Engineering, 2019.Search in Google Scholar
Sun, H. L. (2018). Seismic performance of composite reinforced concrete and steel moment frame structures using pushover analysis. Journal of Structural Engineering, 44(6).Search in Google Scholar
Tsai, C., Tsai, K., Chen, L., & Wu, A. (2018). Seismic performance analysis of brbs and gussets in a full‐ scale 2‐story brb‐rcf specimen. Earthquake Engineering & Structural Dynamics, 47(12).Search in Google Scholar
Xu, B., Pang, R., & Zhou, Y. (2020). Verification of stochastic seismic analysis method and seismic performance evaluation based on multi-indices for high cfrds. Engineering Geology, 264, 105412.Search in Google Scholar
Khiavi, M. P. (2017). Investigation of seismic performance of concrete gravity dams using probabilistic analysis. Gradevinar, 69(1), 21-29.Search in Google Scholar
Royero, J. B., Saiidi, M. S., & Itani, A. (2020). Seismic performance analysis and assessment of a precast bridge computational model. Dyna (Medellin, Colombia), 87(212), 80-89.Search in Google Scholar
Luo, Q., Wang, W., Sun, Z., Xu, S., & Wang, B. (2021). Seismic performance analysis of corrugated-steel-plate composite shear wall based on corner failure. Journal of Constructional Steel Research, 180(4), 106606.Search in Google Scholar
Zhang, Y., Liu, A., Zhang, A., & Liu, X. (2017). Seismic performance analysis of a resilient prestressed steel frame with intermediate column containing friction dampers. Advanced Steel Construction, 13(3), 241-257.Search in Google Scholar
Akbar, M. (2021). The seismic analysis and performance of steel frame with additional low-yield-point steel dampers. Journal of Vibroengineering, 23(3), 28.Search in Google Scholar
Wang, J., Li, Q., & Wei, G. (2020). Seismic performance analysis of steel beam to cfst column connection with ductility and energy dissipation components. Journal of Vibroengineering (1).Search in Google Scholar
