职称：副教授

电子邮件：zhuqing@tongji.edu.cn

研究领域：

桥梁与结构抗风

超千米级斜拉桥风致静、动力稳定性能

典型断面涡激力模型

典型桥梁断面风致自激振动特性

所属研究室：桥梁抗风研究室

主要学历：

• 博士    香港理工大学 土木与环境工程系  10年11月至15年3月

• 硕士    同济大学 桥梁与隧道工程系    07年9月至10年6月

• 本科    同济大学 土木工程系       03年9月至07年6月

任职经历（包括国内外）

• 22年11月至今     同济大学土木工程学院桥梁工程系 副教授

• 16年6月至22年11月  同济大学土木工程学院桥梁工程系 助理研究员

• 15年3月至16年6月  香港理工大学土木与环境工程系Research Associate    

主讲课程：《桥涵水文》 

研究项目： 

主持的纵向项目

• 国家自然科学基金青年项目：《大跨度分离双箱梁桥分布涡激力模型与涡振应力分析》

• 青年优秀人才培养行动计划：《大跨度空间索面悬索桥猫道静风稳定及抖振性能研究》

• 桥梁结构抗风技术交通行业重点实验室自主研究课题：《中央开槽箱梁断面涡激压力分布模型研究》

参与的主要纵向项目

• 国家重点研发计划：大跨度在役桥梁涡振风险要素精准辨识技术及仿真分析系统 （子课题负责人）

• 国家自然科学基金重点项目：《超大跨度高性能材料缆索承重桥梁结构设计及风致灾变理论与方法》

主持的横向项目

• Precious Credence JV Gezhouba Sdn. Bhd.公司：《马来西亚沿海大道 Rambungan大桥抗风性能研究》

• 黄茅海跨海通道管理中心：《采用TMD（调谐质量阻尼器）的黄茅海跨海通道中引桥涡振控制措施研究》

• 中国电力科学研究院有限公司：《导线风压不均匀性表征方法的基础理论研究》

学术兼职：

中国空气动力学会风工程和工业空气动力学专业委员会委员

发表论文（第一/通讯作者代表性论文）

1. Sun H., Zhu L.D., Zhu Q.*, Qian C., Meng, X.L., & Du L.Q. (2022). Identification of parameters for same-order nonlinear damping terms in polynomial-type vortex-induced force models for bridge decks. Journal of Wind Engineering and Industrial Aerodynamics, 229: 105158.

2. Zhu L.D., Chen X.Y., Zhu Q.*, Zhang B.S., & Zhuang W.L. (2022). Unsteady and nonlinear galloping mechanism of a 3:2 rectangular prism explained with a simplified mathematical model. Journal of Wind Engineering and Industrial Aerodynamics, 224: 104963.

3. Qian, C., Zhu L.D., Zhu Q.*, Ding Q.S., Yan L. (2022). Pattern and mechanism of wind-induced static instability of super-long-span cable-stayed bridge under large deformation. Journal of Wind Engineering and Industrial Aerodynamics, 221: 104910.

4. Xiao, X., Pi D.P, & Zhu, Q.* (2022). A bridge weigh-in-motion algorithm for fast-passing railway freight vehicles considering bridge-vehicle interaction. Mechanical Systems and Signal Processing, 181: 109493.

5. Zhou, Q., Zhao, L., Zhu, Q.*, & Zhu, Y. (2021). Mean wind loads on equilateral triangular lattice tower under skewed wind loading. Journal of Wind Engineering and Industrial Aerodynamics, 208(2), 104467.

6. Zhou Qi; Ma Bin; Zhu Qing*; Zhang Hongjie; Investigation on wind loads on angle-steel cross-arms of lattice transmission towers via direct force measurement, Journal of Wind Engineering and Industrial Aerodynamics, 2019, 191: 117-26.

7. Zhu Qing; Xu Youlin*; Zhu Ledong; Li Hui; Vortex-induced vibration analysis of long-span bridges with twin-box decks under non-uniformly distributed turbulent winds, Journal of Wind Engineering & Industrial Aerodynamics, 2018, 172: 31–41.

8. Tan, Z. X., Zhu, L. D., Zhu, Q.*, & Xu, Y. L. (2018). Modelling of distributed aerodynamic pressures on bridge decks based on proper orthogonal decomposition. Journal of Wind Engineering & Industrial Aerodynamics, 172, 181-195.

9. Zhu Qing; Xu Youlin*; Zhu Ledong; Chen Bingyao; A semi-empirical model for vortex-induced vertical forces on a twin-box deck under turbulent wind flow, Journal of Fluids and Structures, 2017, 71: 183-198.

10. Zhu Qing; Chen Bingyao; Zhu Ledong*; Xu Youlin; Investigation on characteristics and span-wise correlation of vortex-induced forces on a twin-box deck using newly-developed wind-tunnel test technique. Journal of Wind Engineering and Industrial Aerodynamics, 2017, 164: 69-81.

11. Zhu Qing*; Xu Youlin; Shum Keiman; Stress-level buffeting analysis of a long-span cable-stayed bridge with a twin-box deck under distributed wind loads, Engineering Structures, 2016, 127: 416-433.

12. Zhu, Q.*, Xu, Y. L., & Xiao, X. (2015). Multiscale modeling and model updating of a cable-stayed bridge. I: Modeling and influence line analysis. Journal of Bridge Engineering, 20(10), 04014112.

13. Xiao, X., Xu, Y. L., & Zhu, Q.* (2015). Multiscale modeling and model updating of a cable-stayed bridge. II: Model updating using modal frequencies and influence lines. Journal of Bridge Engineering, 20(10), 04014113.

14. Zhu, Q.*, & Xu, Y.L. (2014). Characteristics of distributed aerodynamic forces on a twin-box bridge deck. Journal of Wind Engineering and Industrial Aerodynamics, 131, 31-45.

15. 翟晓亮, 朱青*, 钱程, & 朱乐东. (2020). 山区峡谷大跨度钢桁梁悬索桥抗风性能研究. 公路交通科技, 37(11), 56-62.

16. 杨风利, 张宏杰, 朱青*, & 王飞(2020). 基于阵风响应因子的导线风压不均匀系数计算理论研究. 结构工程师, 36(6), 98-103.

17. 朱青, 陈文天, 朱乐东, 崔译文. 大攻角下超大跨度斜拉桥颤振性能节段模型风洞试验[J]. 中国公路学报, 2019, 32(10).

18. 朱乐东, 孙颢, 朱青*, 杜林清. 基于位移测量的非线性涡激力模型参数识别方法[J]. 中国公路学报, 2019, 32(10).

其他代表性论文

1. Zhang, G.-Q., Wang, B., Zhu, Q., Xu, Y.-L., 2023. Dynamic behavior and ride comfort of a vehicle moving on a long suspension bridge within multi-mode lock-in regions. Journal of Wind Engineering and Industrial Aerodynamics 234, 105345.

2. Zhu, L.-D., Gao, G.-Z., Zhu, Q., 2020. Recent advances, future application and challenges in nonlinear flutter theory of long span bridges. Journal of Wind Engineering and Industrial Aerodynamics 206, 104307.

3. Zhu, L.-D., Meng, X.-L., Tan, Z., Zhu, Q., 2022. Full bridge analysis of nonlinear vortex-induced vibration considering incomplete span-wise correlation of vortex-induced force. Advances in Structural Engineering 25, 3255–3267.

4. Sun, B., Xu, Y. L., Zhu, Q., & Li, Z. (2019). Concurrent multi-scale fatigue damage evolution simulation method for long-span steel bridges. International Journal of Damage Mechanics, 28(2), 165-182.

5. Sun, B., Xu, Y. L., Wang, F. Y., Li, Z., & Zhu, Q. (2019). Multi-scale fatigue damage prognosis for long-span steel bridges under vehicle loading. Structure and Infrastructure Engineering, 15(4), 524-538.

6. Xu, Y. L., Tan, Z. X., Zhu, L. D., Zhu, Q., & Zhan, S. (2019). Buffeting-induced stress analysis of long-span twin-box-beck bridges based on POD pressure modes. Journal of Wind Engineering and Industrial Aerodynamics, 188, 397-409.

7. Wang, F. Y., Xu, Y. L., Sun, B., & Zhu, Q. (2019). Dynamic stress analysis for fatigue damage prognosis of long-span bridges. Structure and Infrastructure Engineering, 15(5), 582-599.

8. Wang, F. Y., Xu, Y. L., Sun, B., & Zhu, Q. (2018). Updating multiscale model of a long-span cable-stayed bridge. Journal of Bridge Engineering, 23(3), 04017148.

9. Tan, Z. X., Xu, Y. L., Zhu, L. D., & Zhu, Q. (2018). POD-based modelling of distributed aerodynamic and aeroelastic pressures on bridge decks. Journal of Wind Engineering and Industrial Aerodynamics, 179, 524-540.

10. Tan, Z. X., Xu, Y. L., Zhu, L. D., & Zhu, Q. (2018). POD-based spanwise correlation analysis of aerodynamic and aeroelastic pressures on twin-box bridge decks. Journal of Fluids and Structures, 82, 520-537.

11. Hu, L., Xu, Y. L., Zhu, Q., Guo, A., & Kareem, A. (2017). Tropical storm–induced buffeting response of long-span bridges: Enhanced nonstationary buffeting force model. Journal of Structural Engineering, 143(6), 04017027.

12. Zhu, L.D., Li, L., Xu, Y.L.*, & Zhu, Q. (2012). Wind tunnel investigations of aerodynamic coefficients of road vehicles on bridge deck. Journal of Fluids and Structures, 30, 35-50.

13. 朱乐东, 朱青, 郭震山(2011). 风致静力扭角对桥梁颤振性能影响的节段模型试验研究. 振动与冲击, 30(5): 23-31.