个人信息Personal Information
教授
博士生导师
硕士生导师
任职 : 土木工程系主任
性别:男
毕业院校:同济大学
学位:博士
所在单位:土木工程系
学科:桥梁与隧道工程. 防灾减灾工程及防护工程. 流体力学
办公地点:桥隧研发基地306
电子邮箱:fuyouxu@dlut.edu.cn
个人简介Personal Profile
博士后招生专业:土木工程
博士生招生专业:桥梁工程、防灾减灾工程及防护工程
硕士生招生专业:桥梁工程、防灾减灾工程及防护工程
许福友,开云平台首页 教授、博士生导师,国家杰出青年科学基金获得者。桥梁与隧道技术国家地方联合工程实验室主任,Advances in Wind Engineering 期刊副主编,中国公路学会桥梁和结构工程分会常务理事,中 国土木工程学会绿色建造与运维分会常务理事。主持国家自然科学基金项目 6 项,主持国 家重点研发计划项目课题 1 项;第一/通讯作者 在国际国内顶级权威期刊发表 SCI/EI 论文 70/30 余篇;第一发明人授权美国专利 8 项,中国发明专利 20 项;参编著作 2 部;获中国公路学会科技一等奖 2 项。主要代表性学术成绩:
首创了自然风场大比例全桥气弹模型试验方法,建造了世界上首座试验基地,提供了全新试验手段;
原创发明了桥梁弯扭耦合大幅振动试验装置,攻克了传统装置无法开展大幅软颤振研究的技术屏障;
成功实现了桥梁三维气弹模型涡振及颤振后状态数值模拟和非线性理论分析,揭示了风致振动机理;
创建了超大吨位、超低频、超低阻尼比振动测试平台,藉此开展大型工程振动激励与控制试验研究;
提出了(超)大跨桥梁大幅颤振、低频涡振控制的新理念和系列高效实用措施,大幅降低了工程造价。
代表性论文:
1. Wang Miaomin, Xu Fuyou*, Koo Ki-Young*, Wang Pinqing. Real-time displacement measurement for long-span bridges using a compact vision-based system with speed-optimized template matching[J]. Computer-Aided Civil and Infrastructure Engineering, 2024.
2. Ma Xingliang, Xu Fuyou, Liu Zhen*. A method for evaluation of the probability density function of white noise filtered non-Gaussian stochastic process[J]. Mechanical Systems and Signal Processing, 2024, 211(1).
3. Ma Xingliang, Xu Fuyou*. Investigation on the sampling distributions of non-Gaussian wind pressure skewness and kurtosis[J]. Mechanical Systems and Signal Processing, 2024, 211(8).
4. Xu Fuyou*, Wang Pinqing, Yang Jing. Geometric nonlinear stiffness and frequency of the traditional spring-suspended free-vibration testing device[J]. Journal of Wind Engineering and Industrial Aerodynamics, 2023, 242: 105585.
5. Wang Xu, Xu Fuyou*, Zhang Zhanbiao, et al. Numerical explorations of the vortex-induced vibration of a streamlined box girder with water-filled barriers[J]. Journal of Wind Engineering and Industrial Aerodynamics, 2023, 240: 105496.
6. Wang Miaomin, Koo Ki-Young, Liu Chunyu, Xu Fuyou*. Development of a low-cost vision-based real-time displacement system using Raspberry Pi[J]. Engineering Structures, 2023, 278: 115493.
7. Zhang Zhanbiao, Kareem Ahsan, Xu Fuyou*, Jiang Hongyi. Global instability and mode selection in flow fields around rectangular prisms[J]. Journal of Fluid Mechanics, 2023, 955: A19.
8. Wang Miaomin, Xu Fuyou*, Xu Yan, James Bownjohn. A robust subpixel refinement technique using self-adaptive edge points matching for vision-based structural displacement measurement[J]. Computer-Aided Civil and Infrastructure Engineering, 2023, 38(5): 562-579.
9. Yu Haiyan, Zhang Minjie, Xu Fuyou*. Experimental Research on the Aerodynamic Characteristics of Typical Pipeline Suspension Bridges[J]. Journal of Pipeline Systems Engineering and Practice (ASCE), 2022, 13(4).
10. Wang Xu, Xu Fuyou*, Zhang Zhanbiao, Ying Xuyong. Self-Excited Forces Induced by Lateral Vibration of Bridge Decks[J]. Journal of Bridge Engineering (ASCE), 2022, 27(11): 06022003.
11. Wang Yuqi, Zhang Zhanbiao, Bingham Harry B., Xu Fuyou*. Numerical simulation of vortex-induced vibrations of inclined flexible risers subjected to uniform current[J]. Applied Ocean Research, 2022, 129.
12. Zhang Zhanbiao, Xu Fuyou*, Wang Xu, Wang Yuqi. Instability modes of the flows around a streamlined box girder[J]. Journal of Wind Engineering and Industrial Aerodynamics, 2022, 225: 105008.
13. Wang Miaomin, Ao Wai Ke, James Bownjohn, Xu Fuyou*. Completely non-contact modal testing of full-scale bridge in challenging conditions using vision sensing systems[J]. Engineering Structures, 2022, 272.
14. Wang Bo, Zhang Mingjie, Xu Fuyou*. Experimental investigation on the VIV of a rectangular 4:1 cylinder under skew winds[J]. Journal of Wind Engineering and Industrial Aerodynamics, 2022, 229.
15. Ma Zhaoyu, Xu Fuyou*, et al. Design, fabrication, and dynamic testing of a large-scale outdoor aeroelastic model of a long-span cable-stayed bridge[J]. Engineering Structures, 2022, 256: 114012.
16. Wang Miaomin, Ao Wai Kei, James Bownjohn, Xu Fuyou*. A novel gradient-based matching via voting technique for vision-based structural displacement measurement[J]. Mechanical Systems and Signal Processing, 2022, 171: 108951.
17. Zhang Mingjie*, Xu Fuyou*. Tuned mass damper for self-excited vibration control: Optimization involving nonlinear aeroelastic effect[J]. Journal of Wind Engineering and Industrial Aerodynamics, 2022, 220: 104836.
18. Xu Fuyou*, Ge Xiaomeng, et al. Experimental Investigation on the Responses of Bridge Aeroelastic Models Subjected to Wind-Rain Actions[J]. Journal of Bridge Engineering (ASCE), 2021, 26(2): 06020003.
19. Xu Fuyou, Wang Yuqi*. Numerical simulation of ringing responses of a vertical cylinder[J]. Ocean Engineering, 2021, 226: 108815.
20. Xu Fuyou*, Yang Jing, Zhang Zhanbiao, Zhang Mingjie. Investigations on large-amplitude vibrations of rigid models using a novel testing device[J]. Journal of Bridge Engineering (ASCE), 2021, 26(5): 06021002.
21. Xu Fuyou*, Yang Jing, Zhang Mingjie, Yu Haiyan. Experimental investigations on post-flutter performance of a bridge deck sectional model using a novel testing device[J]. Journal of Wind Engineering and Industrial Aerodynamics, 2021, 217: 104752.
22. Yu Haiyan, Xu Fuyou*, et al. Experimental research on the aerodynamic responses of a long-span pipeline suspension bridge[J]. Engineering Structures, 2021, 245: 112856.
23. Xu Fuyou*, Yu Haiyan, Zhang Mingjie. Aerodynamic Response of a Bridge Girder Segment during Lifting Construction Stage[J]. Journal of Bridge Engineering (ASCE), 2019, 24(8).
24. Xu Fuyou*, Ma Zhaoyu, et al. A new method studying wind engineering of bridges: Large-scale aeroelastic model test in natural wind[J]. Journal of Wind Engineering and Industrial Aerodynamics, 2020, 202.
25. Xu Fuyou, Yu Haiyan*. Effect of Ice Accretion on the Aerodynamic Responses of a Pipeline Suspension Bridge[J]. Journal of Bridge Engineering (ASCE), 2020, 25(10).
26. Xu Fuyou, Yu Haiyan*, Zhang Mingjie, Han Yan. Experimental study on aerodynamic characteristics of a large-diameter ice-accreted cylinder without icicles[J]. Journal of Wind Engineering and Industrial Aerodynamics, 2021, 208.
27. Xu Fuyou, Ma Xingliang*. An efficient simulation algorithm for non-Gaussian nonstationary processes[J]. Probabilistic Engineering Mechanics, 2021,63.
28. Zhang Mingjie*, Xu Fuyou*, Oiseth Ole. Aerodynamic damping models for vortex-induced vibration of a rectangular 4:1 cylinder: Comparison of modeling schemes[J]. Journal of Wind Engineering and Industrial Aerodynamics, 2020, 205.
29. Zhang Mingjie, Xu Fuyou*, Han Yan. Assessment of wind-induced nonlinear post-critical performance of bridge decks[J]. Journal of Wind Engineering and Industrial Aerodynamics, 2020, 117: 0-104251.
30. Zhang Zhanbiao, Xu Fuyou*. Spanwise length and mesh resolution effects on simulated flow around a 5:1 rectangular cylinder[J]. Journal of Wind Engineering and Industrial Aerodynamics, 2020, 202: 0-104186.
31. Wang Yuqi, Xu Fuyou*, Zhang Zhanbiao. The secondary load cycle of a bottom-mounted circular cylinder at different Keulgan-Carpenter numbers and Froude numbers[J]. Ocean Engineering, 2020, 213.
32. Zhang Mingjie, Xu Fuyou*, Wu Teng, Zhang Zhanbiao. Postflutter Analysis of Bridge Decks Using Aerodynamic-Describing Functions[J]. Journal of Bridge Engineering (ASCE), 2020, 25(8).
33. Zhang Mingjie, Wu Teng*, Xu Fuyou*. Vortex-induced vibration of bridge decks: Describing function-based model[J]. Journal of Wind Engineering and Industrial Aerodynamics, 2019, 195.
34. Ma Xingliang, Xu Fuyou*. An efficient simulation algorithm for non-Gaussian stochastic processes[J]. Journal of Wind Engineering and Industrial Aerodynamics, 2019, 194.
35. Zhang Zhanbiao, Xu Fuyou*. Added mass and damping effects on vibrating bridge decks in still air[J]. Journal of Wind Engineering and Industrial Aerodynamics, 2019, 191: 227-238.
36. Ma Xingliang, Xu Fuyou*, Chen Bo. Interpolation of wind pressures using Gaussian process regression[J]. Journal of Wind Engineering and Industrial Aerodynamics, 2019, 188: 30-42.
37. Zhang Mingjie, Xu Fuyou*, Zhang Zhanbiao, Ying Xuyong. Energy budget analysis and engineering modeling of post-flutter limit cycle oscillation of a bridge deck[J]. Journal of Wind Engineering and Industrial Aerodynamics, 2019, 188: 410-420.
38. Xu Fuyou, Zhang Zhanbiao*. Numerical simulation of windless-air-induced added mass and damping of vibrating bridge decks[J]. Journal of Wind Engineering and Industrial Aerodynamics, 2018, 180.
39. Ying Xuyong, Xu Fuyou*, et al. Numerical Simulation of Aerostatic Force Coefficients of Bridge Decks Using Continuous Torsional Motion Technique[J]. Journal of Aerospace Engineering (ASCE), 2018, 31(5).
40. Zhang Mingjie, Xu Fuyou*. Nonlinear Vibration Characteristics of Bridge Deck Section Models in Still Air[J]. Journal of Bridge Engineering (ASCE), 2018, 23(9).
41. Li Xiaojiao, Xu Fuyou*, Zhang Zhe. Symplectic Method for Natural Modes of Beams Resting on Elastic Foundations[J]. Journal of Engineering Mechanics (ASCE), 2018, 144(4).
42. Zhang Mingjie, Xu Fuyou*, and Xuyong Ying. Experimental Investigations on the Nonlinear Torsional Flutter of a Bridge Deck[J]. Journal of Bridge Engineering (ASCE), 2017.
43. Xu Fuyou*, Zhang Zhanbiao. Free vibration numerical simulation technique for extracting flutter derivatives of bridge decks[J]. Journal of Wind Engineering & Industrial Aerodynamics 170 (2017) 226–237.
44. Ying Xuyong, Xu Fuyou*, et al. Numerical explorations of the limit cycle flutter characteristics of a bridge deck[J]. Journal of Wind Engineering & Industrial Aerodynamics 169 (2017) 30–38.
45. Li Xiaojiao, Xu Fuyou*, and Zhang Zhe. Symplectic Eigenvalue Analysis Method for Bending of Beams Resting on Two-Parameter Elastic Foundations[J]. Journal of Engineering Mechanics (ASCE), 2017.
46. Xu Fuyou*. System Decoupling Approach for 3-DOF Bridge Flutter Analysis[J], Journal of Structural Engineering, 2015,141(7).
47. Xu Fuyou*, Ying Xuyong, Zhang Zhe. Three-Degree-of-Freedom Coupled Numerical Technique for Extracting 18 aerodynamic Derivatives of Bridge Decks[J], Journal of Structural Engineering, 2014,140(11).
48. Xu Fuyou*, Wu Teng, Ying Xuyong, Kareem Ahsan. Higher-order Self-Excited Drag Forces on Bridge Decks[J], Journal of Engineering Mechanics (ASCE), 2016,142(3).
49. Xu Fuyou*. Practical Diagrammatical Technique for 3-DOF Bridge Flutter Analysis[J]. Journal of Bridge Engineering (ASCE), 2014,19(12).
50. Xu Fuyou*, Li Binbin, Zhang Zhe. Experimental Investigations on Aerostatic Characteristics of Bridge Decks under Various Conditions[J]. Journal of Bridge Engineering (ASCE), 2014,19(7).
51. Xu Fuyou*, Chen Xinzhong, Cai Chunsheng. Determination of 18 Flutter Derivatives of Bridge Decks by an Improved Stochastic Search Algorithm[J]. Journal of Bridge Engineering (ASCE), 2012,17(4): 576-588.
52. Xu Fuyou*, Ying Xuyong, Zhang Zhe. Effects of Exponentially Modified Sinusoidal Oscillation and Amplitude on Bridge Deck Flutter Derivatives[J]. Journal of Bridge Engineering (ASCE), 2016,21(5).
53. Xu Fuyou*, Zhu Ledong, Ge Xiaomeng, Zhang Zhe. Some new insights into the identification of bridge deck flutter derivatives[J]. Engineering Structures, 2014.75: 418-428.
54. Xu Fuyou*. Direct Approach to Extract 18 Flutter Derivatives of Bridge Decks and Vulnerability Analysis[J], Journal of Aerospace Engineering (ASCE),2015,28(3).
55. Ma Xingliang, Xu Fuyou*, et al. Estimation of Surface Pressure Extremes: Hybrid Data and Simulation- Based Approach[J], Journal of Engineering Mechanics (ASCE), 2016,142(10).
56. Xu Fuyou*, Ying Xuyong, Li Yongning, Zhang Mingjie. Experimental Explorations of the Torsional Vortex-Induced Vibrations of a Bridge Deck[J]. Journal of Bridge Engineering (ASCE), 2016.