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Resume
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Department of Civil Engineering
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Name | Panpan Gai | Date of Birth | | | Title | Lecturer | Degree | Ph.D | Position | | Discipline | | Education and Professional Experience | Education: Southeast University Ph.D. University of Illinois at Urbana-Champaign, USA Joint Ph.D. Qingdao University of Technology M.S.
Qingdao University of Technology B.S.
Professional Experience: 02, 2022 – Present Jiangsu University |
| Social Academic Post and Honor | Member of Chinese Society of Vibration Engineering Member of The American Society of Civil Engineers Reviewer of Engineering Structures, Soil Dynamics and Earthquake Engineering, Structures, Journal of Vibration and Control et al |
| Main Courses | | Scientific Research Field | Structural vibration control; Intelligent Situation awareness and health assessment of urban subway; Study on macro and micro mechanical behavior and energy dissipation mechanism of viscoelastic damping materials; Metamaterial. |
| Projects | Major Project of Fundamental Research on Frontier Leading Technology of Jiangsu Province, Participant Postgraduate Research & Practice Innovation Program of Jiangsu Province, PI National Natural Science Foundation of China, Participant |
| Main Papers and Patents | [1] Gai P P, Spencer Jr B F, Xu Z D. Effect of frequency dependence on the seismic performance of linear viscoelastic base-isolated structures[J]. Soil Dynamics and Earthquake Engineering, 2020, 139: 106396. (SCI, Q2) [2] Gai P P, Xu Z D, Guo Y Q. Gradient chain structure model for characterizing frequency dependence of viscoelastic materials[J]. Journal of Engineering Mechanics-ASCE, 2020, 146(9): 04020094. (SCI, Q2) [3] Xu Z D, Gai P P, Zhao H Y. Experimental and theoretical study on a building structure controlled by multi-dimensional earthquake isolation and mitigation devices[J]. Nonlinear Dynamics, 2017, 89(1): 723-740. (SCI, Q1) [4] Dai J, Gai P P, Xu Z D, Chen Z Q. A reduced-order improved rational polynomial method for viscoelastically damped structures considering ambient temperature effect[J]. Soil Dynamics and Earthquake Engineering, 2022, 159: 107315. (SCI, Q2) [5] Dai J, Xu Z D, Gai P P, et al. Optimal design of tuned mass damper inerter with a Maxwell element for mitigating the vortex-induced vibration in bridges[J]. Mechanical Systems and Signal Processing, 2021, 148: 107180. (SCI, Q1) [6] Dai J, Xu Z D, Gai P P. Parameter determination of the tuned mass damper mitigating the vortex-induced vibration in bridges[J]. Engineering Structures, 2020, 221: 111084. (SCI, Q1) [7] Dai J, Xu Z D, Gai P P. Tuned mass-damper-inepter control of wind-induced vibration of flexible structures based on inerter location[J]. Engineering Structures, 2019, 199: 109585. (SCI, Q1) [8] Li H W, Xu Z D, Gomez D, Gai P P, Wang F, Dyke S J. A modified fractional-order derivative zener model for rubber-like devices for structural control[J]. Journal of Engineering Mechanics-ASCE, 2022, 148(1): 04021119. (SCI, Q2) |
| Email | Email: gai@ujs.edu.cn ResearchGate: https://www.researchgate.net/profile/Panpan-Gai-3 |
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