代表性论著 [1] Ge Song, Ying Zhou. Performance assessment for self-centering systems considering ground motion duration: Part 2-Evaluation of structural collapse capacity. Soil Dynamics and Earthquake Engineering, 2024, 178: 108497. [2] Ge Song, Ying Zhou. Performance assessment for self-centering systems considering ground motion duration: Part 1-Evaluation of structural behaviors and damage development. Soil Dynamics and Earthquake Engineering, 2024, 178: 108486. [3] Ge Song, Lili Xing. Application of an energy-based design procedure in self-centering shear wall systems. Bulletin of Earthquake Engineering, 2023, 21: 5743-5766. [4] Ge Song. Performance-based damage quantification and evaluation for self-centering concrete frames. Structures, 2023, 57: 105090. [5] Ge Song, Tony Yang, Ying Zhou. Distribution of hysteretic energy demands in self-centering concrete frames with hybrid joints. Soil Dynamics and Earthquake Engineering, 2021, 148: 106828. [6] Ge Song, Tony Yang, Ying Zhou. Energy-based seismic design for self-centering concrete frames. Bulletin of Earthquake Engineering, 2021, 19: 5113-5137. [7] Ge Song, Ying Zhou, Tony Yang. Energy-based design theory for self-centering structures. IWEBSE: Energy-Based Seismic Engineering, 24-26 May, 2021, Polytechnic University of Madrid, Madrid. [8] Ge Song, Tony Yang, Ying Zhou. Performance evaluation of self-centering rocking shear walls: Part 1-Quantification of structural damages. Structures, 2021, 34: 2515-2529. [9] Ge Song, Tony Yang, Ying Zhou. Performance evaluation of self-centering rocking shear walls: Part 2-Determination of performance objectives. Structures, 2021. 34: 3404-3413. [10] Ying Zhou, Ge Song, Wei Huang. Performance-based evaluation of hybrid joints. Bulletin of Earthquake Engineering, 2020, 18: 3781-3816. [11] Ying Zhou, Ge Song, Ping Tan. Hysteretic energy demand for self-centering SDOF systems. Soil Dynamics and Earthquake Engineering, 2019, 125: 105703. [12] Ying Zhou, Ge Song, Shimin Huang, Hao Wu. Input energy spectra for self-centering SDOF systems. Soil Dynamics and Earthquake Engineering, 2019, 121: 293-305. |