国家自然科学基金优秀青年科学基金项目（海外），主持

同济大学高层次人才项目，主持

澳大利亚优秀青年科学基金项目，主持

欧盟玛丽居里学者项目，主持

32. Chen T, Li Z, Gu X, Xiao Z, Chen W, Zuo H*.Fatigue performance of CFRP-strengthened steel pipes with semi-ellipticalsurface cracks. Engineering Structures 340:120774, 2025.（主编精选论文）

31. Jiang L, Zuo H,Bi K, Hao H, Chen W. Seismic-induced vibration control of modular high-risebuildings using mega modularized substructure. Structures 78:109333,2025.

30. Wang H, Shen R, BaiL, Wang L, Chen W, Zuo H. Analytical method for predicting train-inducedlongitudinal movement at girder ends of suspension bridges with full-scale testvalidation. Engineering Structures 327:119673, 2025. 

29. Chen T, Li W, DengR, Zuo H*. Fatigue analysis of offshore wind turbines withsoil-structure interaction and various pile types. Ocean Engineering314:119786, 2024. 

28. Yuan Y, Bi K*, ZuoH*. Influence of earthquake ground motion types on the seismic responses ofwind turbines. Advances in Structural Engineering 28(3):468-487, 2025.

27. Li S, Qi Y, Zhou M,Zhang X, Tian Y, Li J, Zuo H. Response of installed suction caissoninduced by rectangular footings penetration in non-homogeneous clay. InternationalJournal of Geomechanics 24(9):04024195, 2024. 

26. Zhou W, Zuo H,Bi K, Hao H, Chen W. Bandgap characteristics of a hybrid multi-resonatorelastic metamaterial with negative stiffness mechanism and its application tomitigate seismic response of building structures. Thin-Walled Structures202:112079, 2024. 

25. Cai Q, Hua Y, Zhu S,Zhang X, Zuo H*. Bistable energy-harvesting track nonlinear energy sinkin offshore wind turbines. Mechanical Systems and Signal Processing215:111407, 2024.

24. Li J, Zhu S, ZhangJ, Ma R, Zuo H*. Vibration control of offshore wind turbines with anovel energy-adaptive self-powered active mass damper. EngineeringStructures 302:117450, 2024.

23. Zuo H, Pan X,Bi K, Hao H. Control of seismic induced response of wind turbines usingKDamper. Journal of Infrastructure Intelligence and Resilience 3:100082,2024. 

22. Zuo H, Bi K,Zhu S, Ma R, Hao H. On the dynamic characteristics of using track nonlinearenergy sinks for structural vibration control. Engineering Structures302:117436, 2024. 

21. Ma R, Bi K, Zuo H,Song J, Han Q, Du X. A novel tuned torsional mass damper (TTMD) for seismicprotection of structures. Engineering Structures 300:117233, 2024.

20. Zhang J, Zuo H,Zhu S, Yang J, Lu L. Fatigue degradation of wind turbines considering dynamicwake meandering effects. Engineering Structures 300:117132, 2024. (DOI) （主编精选和年度最佳论文）

19. Zuo H, ZhangJ, Bi K, Zhu S, Hao H, Ma R. Structural vibration control of spar-buoy floatingoffshore wind turbines. Engineering Structures 294:116732, 2023.

18. Ma R, Bi K, Zuo H,Du X. Inerter-based damping isolation system for vibration control of offshoreplatforms subjected to ground motions. Ocean Engineering 280:114726,2023.

17. Ma R, Bi K, ZuoH. An adaptive tuned heave plate (ATHP) for suppressing heave motion offloating platforms. Smart Structures and Systems31(3):283-299, 2023. 

16. Zuo H, Zhu S.Bistable track nonlinear energy sinks with nonlinear viscous damping forimpulsive and seismic control of frame structures. Engineering Structures272:114982, 2022.

15. Li C, Bi K, Hao H, ZuoH, Do VT. Shake-table tests of BFRP-reinforced geopolymer concretesegmental columns. Bulletin of Earthquake Engineering 20:7287-7311, 2022.

14. Zuo H, ZhangJ, Yuan G, Zhu S. Wind- and sea wave-induced response mitigations of offshorewind turbines using track nonlinear energy sinks. Structural Control andHealth Monitoring e2990, 2022.（封面论文）

13. Zuo H, Zhu S.Development of novel track nonlinear energy sinks for seismic performanceimprovement of offshore wind turbine towers. Mechanical Systems and SignalProcessing 172:108975, 2022.

12. Zuo H, Bi K,Hao H, Li C. Numerical study of using shape memory alloy-based tuned massdampers to control seismic responses of wind turbine tower. EngineeringStructures 250:113452, 2022.

11. Zuo H, ZhangW, Wang B, Gu X. Force-displacement relationship modelling of masonry infillwalls with openings in hinged steel frames. Bulletin of EarthquakeEngineering 20:349-382, 2022.

10. Zuo H, ZhangW, Wang B, Gu X. Seismic behaviour of masonry infilled hinged steel frames withopenings: experimental and numerical studies. Bulletin of EarthquakeEngineering 19:1311-1335, 2021.

9. Zuo H, Bi K,Hao H, Ma R. Influences of ground motion parameters and structural damping onthe optimum design of inerter-based tuned mass dampers. EngineeringStructures 227:111422, 2021.

8. Zuo H, Bi K,Hao H. Simultaneous out-of-plane and in-plane vibration mitigations of offshoremonopile wind turbines by tuned mass dampers. Smart Structures and Systems26(4):435-449, 2020.

7. Zuo H, Bi K,Hao H, Li J, Xin Y, Li C. Fragility analyses of offshore wind turbinessubjected to aerodynamic and sea wave loadings. Renewable Energy160:1269-1282, 2020. 

6. Zuo H, Bi K,Hao H. A state-of-the-art review on the vibration mitigation of wind turbines. Renewableand Sustainable Energy Reviews 121:109710, 2020. 

5. Ni P, Xia Y, Li J,Hao H, Bi K, Zuo H. Multi-scale stochastic dynamic analysis of offshorerisers with lognormal uncertainties. Ocean Engineering 189:106333, 2019.

4. Zuo H, Bi K,Hao H, Li C. Influence of earthquake ground motion modelling on the dynamicresponses of offshore wind turbines. Soil Dynamics and EarthquakeEngineering 121:151-167, 2019. 

3. Zuo H, Bi K,Hao H. Mitigation of tower and out-of-plane blade vibrations of offshoremonopile wind turbines by using multiple tuned mass dampers. Structure andInfrastructure Engineering 15(2):269-284, 2019.

2. Zuo H, Bi K,Hao H. Dynamic analyses of operating wind turbines including soil-structureinteraction. Engineering Structures 157:42-62, 2018.

1. Zuo H, Bi K, Hao H. Using multiple tunedmass dampers to control offshore wind turbine vibrations under multiplehazards. Engineering Structures 141:303-315, 2017.（ESI论文）