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祝志文

职 称:教授,博士生导师

通讯地址:广东省汕头市大学路243号,汕头大学土木与环境工程系

办 公:工北-315室

职 务:系主任,学科负责人

E-mail:zhuzw@stu.edu.cn


教育经历:

1999年7月-2002年7月:中南大学,桥梁与隧道工程,博士

1996年9月-1999年6月:湖南大学,结构工程,硕士

1987年9月-1991年6月:国防科学技术大学,应用力学,学士


工作经历:

2018年6月至今: 汕头大学土木与环境工程系,教授.

2008年1月-2018年6月: 湖南大学土木工程学院,教授.

2008年7月-2009年7月: University of Delaware土木与环境工程系访问学者.

2005年3月-2007年12月: 同济大学桥梁工程系博士后.

2002年6-2007年12月: 湖南大学土木工程学院,讲师、副教授.


研究领域:

钢结构桥梁;

钢结构和混凝土结构的疲劳与断裂力学;

大跨度桥梁和超高层建筑抗风及风洞试验技术;

结构动力学与振动控制、结构健康监测;

计算流体动力学(CFD)及工程应用;

结构和桥梁检测与评定;


主持国家级科研项目:

1. 国家973计划项目“特大跨桥梁安全性设计与评定的基础理论研究”之子课题“强风作用下特大跨桥梁作用效应精细化建模”,编号:2015CB057701,2015,子课题主持.

2. 国家自然科学基金面上项目:拉索涡激振动加载和桥面车流共同作用下斜拉桥钢锚箱基于现场监测的疲劳性能研究,编号:51878269,2019~2022.

3. 国家自然科学基金面上项目:桥梁主梁气动导纳和影响因素精细化分析的大涡模拟研究,编号:51278191,2013年.

4. 国家自然科学基金面上项目:基于CFD和Volterra理论的桥梁非线性气动力系统识别及应用,编号:50978095,2011年.

5. 国家自然科学基金面上项目:基于CFD(数值风洞)离散时间气动模型的桥梁颤振稳定性研究,编号:50678067,2006年.

主持省部级及其它纵向项目:

6. 教育部第41批留学归国人员科研启动基金:桥墩冲刷的计算流体动力学研究,2011.

7. 中国博士后研究基金项目:紊流风场中大跨度桥梁气动参数识别的子空间方法,编号:2005038452.

8. 上海市博士后研究基金项目:基于CFD(数值风洞)离散时间气动模型的桥梁颤振导数识别,编号:06R214148.

9. 湖南省自然科学基金项目:大气边界层自然风场特性的风洞模拟研究(编号:03JJY3084).

10. 湖南省高校创新平台开放基金(编号:13K016),桥梁主梁气动特性与Re数效应的超级计算.

11. 湖南省交通科技项目:组合桥面铺装正交异性钢桥面板基于现场实测的疲劳研究,编号:201522,2015.


主持横向科研项目(近三年):

1. 趣店科技金融创新园区1#楼项目风洞试验,2019.04.

2. 晟通梅溪湖国际总部二期项目风洞试验,2018.05.

3. 十堰至淅川高速公路(湖北段)丹江水库特大桥节段模型风洞试验和抗风性能研究,2018.07

4. 荆岳长江大桥和鄂东长江大桥正交异性钢桥面板构造细节的疲劳性能研究,2018.

5. 杭瑞高速洞庭湖大桥及观光平台抗风性能研究,2017.

6. 杭瑞高速岳阳洞庭湖大桥组合桥面铺装正交异性钢桥面板应力监测与疲劳性能评价,2017.

7. 跨信阳编组场斜拉桥静力分析、风洞试验与抗风性能研究,2017.

8. 长沙国际体育中心风洞试验与风振响应分析,2017.


主持教学与教改项目:

1. 土木工程防灾减灾教学团队,广东省教育厅2019本科高校教学质量与教学改革工程建设项目。

主讲课程:

1. 钢桥(本科生课程)

2. 桥梁工程(本科生课程)

3. 钢桥疲劳与断裂(双语研究生课程)

4. 结构抗风(研究生课程)

5. 工程结构振动分析、测试与信号处理(研究生课程)


荣誉和奖励

1. 中国公路学会2020年科技进步三等奖:钢-UHPC组合正交异性桥面板疲劳评价理论与工程应用

2. 中国公路学报2018年度优秀论文一等奖

3. 中国公路学报2019年度优秀论文三等奖

4. 2019首届在校大学生桥梁设计大赛奖叁等奖(指导教师)

5. 2020第二届大学生桥梁设计大赛优秀奖(指导教师)

6. 湖南大学,2017年度湖南大学优秀本科生毕业设计指导教师(林梓涛)

7. 湖南大学,2014年度湖南大学优秀本科生毕业设计指导教师(刘宁)


学术兼职:

1. 中国振动工程学会第九届理事会理事

2. 中国公路学会桥梁与结构分会第八届理事会理事

3. 中国钢结构协会桥梁钢结构分会理事

4. 中国公路学报第六届编委(2016-2019),多个国际期刊和中文期刊审稿人

5. 广东省公路学会理事


其它:

1. 申请发明专利4项,适用新型专利4项。

2. 计算机软件著作权登记证书:平板二自由度耦合大幅运动非线性气动力CFD模拟系统1.0,登记号:2019SR1001198.


英文期刊论文

1. Zhenqing Liu, Weipeng Li, Lian Shen, Yan Han, Zhiwen Zhu, Xugang Hua, Numerical study of stable stratification effects on the wind over simplified tall building models using large-eddy simulations, Building and Environment, (2021) 107625.

2. Wang Q.H., Tiwaria N., Hazra B., Lei W and Zhu Z.W., MTMDI for Mitigating Wind-induced Responses of Linked High-rise Buildings. Journal of Structural Engineering (ASCE),2021, Doi: 10.1061/(ASCE)ST.1943-541X.0002956.

3. Wei Chen, Zhiwen Zhu, Numerical simulation of wind turbulence by DSRFG and identification of the aerodynamic admittance of bridge decks, ENGINEERING APPLICATIONS OF COMPUTATIONAL FLUID MECHANICS 2020, 14(1), 1515-1535.

4. Zhiwen Zhu, Ze Xiang, Jianpeng Li, Fatigue damage investigation on diaphragm cutout detail on orthotropic bridge deck based on field measurement and FEM,Thin-Walled Structures,157 (2020) 107106.

5. Zhiwen Zhu, Ze Xiang, Jianpeng Li, Yan Huang, Shipeng Ruan, Fatigue behavior of orthotropic bridge decks with two types of cutout geometry based on field monitoring and FEM analysis, Engineering Structures, 209 (2020) 109926:1-21.

6. Zhiwen Zhu, Wei L, Wang Q.H., Hazra B., Study on Wind-induced Vibration Control of Linked High-rise Buildings by Using TMDI. Journal of Wind Engineering and Industrial Aerodynamics, 205 (2020) 104306.

7. Wang Q.H., Qiao H.S., Domenico D., Zhu Z.W., Seismic response control of adjacent high-rise buildings linked by the Tuned Liquid Column Damper-Inerter (TLCDI), Engineering Structures,223(2020) 111169.

8. Domenico D., Qiao H.S., Wang Q.H., Zhu Z.W., Optimal design and seismic performance of Multi-Tuned Mass Damper Inerter (MTMDI) for applications to coupled high-rise buildings. The Structural Design of Tall and Special Buildings, 2020, DOI:10.1002/tal.1781

9. Zhenqing Liu; Jie Peng; Xugang Hua; Zhiwen Zhu; Wind farm optimization considering non-uniformly distributed turbulence intensity, Sustainable Energy Technologies and Assessments, 43 (2020) 100970.

10. Zhenqing Liu; Yize Wang; Xugang Hua; Hongping Zhu; Zhiwen Zhu; Optimization of wind turbine TMD under real wind distribution countering wake effects using GPU acceleration and machine learning technologies; Journal of Wind Engineering and Industrial Aerodynamics, 208 (2020) 104436.

11. Wang Q.H. Cheng Y. F., Ankit G., Zhu Z.W., Characteristics of local wind pressure distribution and global aerodynamic forces on a vertical forest, Ecological Engineering, 138 (2019) 61-70.

12. Wang Q.H., Qiao H.S., Domenico D., Zhu Z.W., Xie Z.N., Wind-induced response control of high-rise buildings using inerter-based vibration absorbers, Applied Sciences. 2019, 9(23), 5045.

13. Zhiwen Zhu, Ze Xiang, Fatigue cracking investigation on diaphragm cutout in a self-anchored suspension bridge with orthotropic steel deck, Structure and Infrastructure Engineering, 2019, 15(10):1279-1291.

14. Zhiwen Zhu, Ze Xiang, Y. Edward Zhou, Fatigue behavior of orthotropic steel bridge stiffened with ultra-high performance concrete layer, Journal of Constructional Steel Research, 2019, 157(6):132-142.

15. Zhiwen Zhu, Tao Yuan, Ze Xiang, et al, Stress behaviors and fatigue performance of details in orthotropic steel bridges with UHPC-deck plate composite system under in-service traffic flows, ASCE, Journal of Bridge Engineering, 2018, 23(3): 04017142-1~21.

16. Zhiwen Zhu,LES prediction of aerodynamics and coherence analysis of fluctuating pressure on box girders of long-span bridges, Computers and Fluids. 2015,110:169-180.

17. Zhiwen Zhu, Ming Gu, Identification of flutter derivatives of bridge decks using CFD-based discrete-time aerodynamic models, Wind and Structures, An International Journal, 2014,18(3): 215-233. 18. ZHU Zhi-wen, LIU Zhen-qing,CFD prediction of local scour hole around bridge piers,Journal of Central South University of Technology, 2012,19(1): 273-281.

19. Zhiwen Zhu, Zhengqing Chen, Ming Gu, CFD based simulations of flutter characteristics of ideal thin plates with and without central slot, Wind and Structures, 2009, 12(1)1-19.

20. Zhi-Wen Zhu, Ming Gu, Zheng-qing Chen, Wind tunnel and CFD study on identification of flutter derivatives of a long-span self-anchored suspension bridge, Computer-Aided Civil and Infrastructure Engineering, 2007, 22:541-554.

21. Zhiwen Zhu, Zhengqing Chen, 3D LES prediction of unsteady pressure on a circular cylinder at Re=4.1×104, Procedia Engineering, 2013, 61:2-8.

22. Zhiwen Zhu, Zhengqing Chen, Large eddy simulation of aerodynamics of a flat box girder on long-span bridges, Procedia Engineering, 2013, 61:212-219.

23. ZHU Zhiwen, WANG Zhaoxiang, CHEN Zhengqing, Computational fluid dynamic analysis of flutter characteristics for self-anchored suspension bridges,Frontiers of Architecture and Civil Engineering in China, 2008, 2(3): 267-273.


中文期刊论文:

1. 祝志文,桥梁基础局部冲刷CFD模拟的研究进展,中国公路学报,已录用。

2. 祝志文,基于现场试验和精细化有限元分析的纵肋-面板双面焊构造细节应力行为研究,中国公路学报,已录用。

3. 祝志文,两自由度平板大幅振动的气动特性与稳定性的CFD研究,振动工程学报,已录用.

4. 祝志文,拉索涡激振动和随机车流共同作用下斜拉桥钢锚箱构造细节疲劳应力实测研究,振动工程学报,2021,34(1)9-19.

5. 王钦华,雷伟,祝志文,Nayandeep Tiwari, MTMDI在连体超高层建筑风振控制中的应用研究, 建筑结构学报, 2020.

6. 王钦华,吴华晓,雷伟,祝志文,Nayandeep Tiwari, 强、弱连接对双塔连体超高层风振响应的影响研究, 振动与冲击,已录用.

7. 吴其,祝志文,李健朋,基于现场实测应力谱的钢锚箱构造细节疲劳评价,铁道科学与工程学报,2020,17(11):2823-2831.

8. 刘靖宜,祝志文,铁路正交异性钢桥面板弧形切口型式的对比研究,铁道科学与工程学报,2020,17(10):2586-2596.

9. 刘宗杰,祝志文,陈魏,陈政清,跨长江特大桥拉索涡激振动与风特性观测,铁道科学与工程学报,2020,17(07):1760-1768.

10. 袁涛,祝志文,陈魏,杨晓,邓晓春,增设观光电梯的超大跨桥梁塔柱风荷载与气动干扰特性,工业建筑,2020,50(4):138-144.

11. 祝志文,李宏博,风洞模型棱角制作误差对扁平箱梁气动力和涡脱特性的影响,振动与冲击,2020,39(6):181-188.

12. 祝志文,李健朋,黄炎,钟国琛,向泽,两种弧形切口对纵肋-横隔板构造细节疲劳性能影响的现场监测研究,中国公路学报,2020, 33(1):87-99.

13. 祝志文,林君福,唐意,王钦华,任意拉格朗日-欧拉描述的薄平板大幅扭转运动气动特性研究,振动工程学报,2020, 33(1):12-23.

14. 祝志文,王钦华,《建筑结构荷载规范》修订后的超高层建筑平均 风荷载比较研究,钢结构,2019,34(8):67-73.

15. 祝志文,多塔斜拉桥加劲索涡激振动实测与时域解析模态分解研究,中国公路学报,2019,32(10):247-256.

16. 祝志文,邓燕华,超高层建筑气动噪声场的大涡模拟,西南交通大学学报,2019,54(4):748-756.

17. 祝志文, 陈魏, 湍流DSRFG与LES风场沿计算域流向变化的影响因素, 中国公路学报, 2019, 32 (2): 106-115.

18. 喻鹏,祝志文,串列双圆柱桥墩局部冲刷精细化模拟,中国公路学报,2019, 32 (1): 107-116.

19. 向泽,祝志文,切口型式对正交异性钢桥面板应力特性的影响,铁道科学与工程学报,2019,16(2):399-407.

20. 袁 涛, 杨晓,王乙静,阳波,祝志文, 大跨度全钢结构人行天桥的创新结构和美学设计,钢结构,2019,34(1):60-73.

21. 祝志文,石亚光, 李健朋,扁平箱梁基于Volterra理论的气动力非线性特性研究,中国公路学报,2018, 31 (1): 74-81.

22. 祝志文,黄炎,陈魏,向泽, 某正交异性板钢桥弧形切口疲劳开裂的现场监测分析, 铁道科学与工程学报,2018,15(1)118-128.

23. 欧阳洋,祝志文,李健朋,钢箱梁面板 - 纵向腹板构造细节轮载应力的参数分析,公路交通科技,2018,35(12)55-62.

24. 欧阳洋,祝志文,钢箱梁面板−纵隔板构造细节轮载应力响应特征分析,铁道科学与工程学报,2018,15(7)1762-1769. 25. 祝志文,向泽,李健朋,正交异性钢桥面板横隔板弧形切口疲劳性能,交通运输工程学报, 2018,18(2):11-22.

26. 祝志文,黄炎,阮诗鹏,等. 用于正交异性板钢桥弧形切口疲劳评价的热点应力法. 交通运输工程学报,2018,18(5): 25-34. 27. 祝志文,邓燕华, 湍流积分尺度对高层建筑风荷载影响的大涡模拟,西南交通大学学报,2018,53(3):508-516.

28. 祝志文,文鹏翔,李健朋,李积泉,麦鹏,UHPC 铺装正交异性钢桥面板纵肋−面板焊缝构造细节的疲劳研究,铁道科学与工程学报,2018,15(4)926-932.

29. 祝志文,王艺静,吴其,大跨度悬索桥主缆空缆状态振动模态分析,铁道科学与工程学报,2018,15(11)2833-2841.

30. 祝志文,程国用,大跨平坡屋盖风荷载折减的移动平均法,铁道科学与工程学报,2018,15(12)1-9.

31. 欧阳洋,祝志文,斜拉桥钢箱梁考虑疲劳性能的纵隔板设计参数研究,铁道科学与工程学,2018,15(12)1-8. 32. 夏昌,祝志文,基于CFD的运动桥梁断面气动力非线性特性研究,公路工程,2018,43(2):210-214.

33. 麦鹏,彭晶亮,祝志文,黄炎,螺栓加强板对横隔板弧形切口的加固研究,钢结构,2018,33(9)88-91.

34. 祝志文, 黄炎,文鹏翔,陈魏,石亚光,邵旭东,随机车流下钢-UHPC组合铺装正交异性钢桥面板构造细节的应力响应特征和疲劳寿命评估,中国公路学报, 2017,30(3):200-209.

35. 祝志文, 黄炎, 向泽,货运繁重公路上某正交异性板钢桥弧形切口疲劳性能研究,中国公路学报,2017, 30(3):104-112。 36. 祝志文, 黄炎,大跨度桥梁脉动风场模拟的插值算法,振动与冲击,2017, 36(7): 156-163. 37. 祝志文,袁涛,陈政清,邓燕华, 基于CFD仿真的平板非线性气动力系统特征研究, 湖南大学学报(自然科学版), 2017, 44(1):32-38.

38. 祝志文,黄炎,向泽. 货运繁重公路的车辆荷载谱和疲劳荷载模型研究. 交通运输工程学报, 2017,17(3):13-24。

39. 祝志文,陈魏,袁涛,桥梁主梁CFD模拟之基准模型测压试验与气动特性分析,中国公路学报,2016,29(11):49-56。

40. 祝志文,向泽,大尺寸纵肋顶板-U肋构造细节的受力分析,钢结构,2016,31(11):38-41.

41. 祝志文,黄炎,王甜,文鹏翔,邵旭东,随机车流下佛陈扩建桥组合桥面板的疲劳评价,钢结构,2016,31(11):31-37.

42. 祝志文, 刘力, 陈魏, 石亚光, 黄炎, 喻鹏,佛陈扩建桥钢-RPC组合铺装钢箱梁桥振动测试与模态识别,钢结构,2016,31(11):26-30.

43. 祝志文,扁平钢箱梁气动特性CFD模拟的维数对比研究,铁道科学与工程学报,2016,13(8):1555-1562。

44. 邓燕华,祝志文, 全风向角下二维方柱绕流数值模拟,铁道科学与工程学报,2016,13(9):1796-1802。

45. 祝志文,袁涛,桥面栏杆对主梁气动力和涡脱特性的影响研究,铁道科学与工程学报,2016,13(10):1945-1954。

46. 王甜,祝志文,向建军, 随机车流下正交异性钢桥面板弧形切口应力响应特征研究,公路工程,2016,41(2):66-71.

47. 王甜, 祝志文, 黄炎, 麦鹏,纵肋-横隔板弧形切口应力响应的面外特征研究,钢结构,2016,31(9):6-11.

48. 祝志文,圆柱亚临界-临界-超临界流动特性的大涡亚格子模型比较研究,动力学与控制学报,2016,14(4):371-378.

49. 祝志文,喻鹏,中美规范桥墩局部冲刷计算的比较研究,中国公路学报,2016,29(1):36-43.

50. 祝志文,基于二维RANS模型计算扁平箱梁漩涡脱落的可行性研究,中国公路学报,2015,28(6):24-33.

51. 祝志文,陈魏,江洪波,地下室地铁运行激励下的振动特性研究,振动与冲击,2015,34(12):115-139.

52. 祝志文,钱六五,基于有效缺口应力法的正交异性钢桥面板的疲劳评价,湖南大学学报,2015, 42(9):59-67.

53. 王甜,祝志文,基于环境激励和子空间技术的自锚式悬索桥结构模态参数识别,公路工程,2015,40(4):14-27.

54. 祝志文,顾明,快速预测大跨度桥梁颤振临界风速的CFD-AM-CSD方法,土木工程学报,2014,47(7):88-96.

55. 祝志文,超临界雷诺数下拉索顺风向自激力特性研究,振动工程学报,2014, 27(3):377-84.

56. 祝志文,圆柱高Re数绕流特性的大涡模拟研究,振动工程学报,2014, 27(1):51-59.

57. 祝志文,喻鹏,刘震卿,桥台局部冲刷形态的CFD动态仿真,土木工程学报,2014, 47(3)103-111。

58. 祝志文,均匀流中箱梁非定常风压的频域特征和空间相关性,中国公路学报,2014,27(6):68-76. 59. 祝志文,高Re数圆柱绕流二维rans模拟适用性分析,振动与冲击,2013,32(7):98-101.

60. 祝志文,固定直圆柱随机脉动升力特性的数值模拟,西南交通大学学报,2013,48(6):975-982.

61. 祝志文,大跨度斜拉桥主梁气动力特性的大涡模拟,湖南大学学报,2013,40(11):25-33.

62. 祝志文,张士宁,钝体矩形断面绕流场机理与主分量分析,湖南大学学报(自然版),2012,39(7):7-13.

63. 祝志文,何树林,华旭刚,PC板式加劲梁悬索桥三维颤振特性分析,振动与冲击,2012,31(3):13-17。

64. 祝志文,李友祥,陈政清,不确定气动干扰效应影响下并列大跨度桥梁颤振导数识别方法,中国公路学报,2011,24(5):40-46。

65. 祝志文,刘震卿,圆柱形桥墩局部冲刷的三维数值模拟,中国公路学报,2011,24(2):42-48。

66. 祝志文,张士宁,刘震卿,陈政清,桥址峡谷地貌风场特性的CFD模拟,湖南大学学报(自然版),38(10):13-17,2011。

67. 祝志文,夏昌,基于两种湍流模型的桥梁颤振导数识别研究及比较,湖南大学学报(自然版),37(11):6-11,2010。

68. 祝志文,顾明,陈政清,两自由度系统气弹响应特性研究,工程力学,2008,25(8):23-30。

69. 祝志文,顾明,陈政清,基于3211多阶跃激励CFD模型的颤振导数识别研究,振动工程学报,2008, 21(1):18-23.

70. 李友祥,祝志文,陈政清,识别桥梁断面颤振导数的快速相关特征系统实现算法,振动与冲击,2008,27(8):117-120.

71. 祝志文,李友祥,陈政清,悬索管道桥结构参数对全桥动力特性的影响,公路工程,2008,33(5):36-39。

72. 祝志文,陈政清,顾明,桥梁气弹响应分析的时域气动模型,中国公路学报,2007,20(6),43-48。

73. 祝志文,顾明,陈政清,桥梁断面颤振导数的CFD全带宽识别法,工程力学, 2007, 24(9), 80-94。

74. 祝志文,顾明,陈政清,指数脉冲强迫激励CFD模型运动的气动参数识别法,振动工程学报,2007, 20(2):133-139.

75. 祝志文,顾明,秦仙蓉,桥梁断面颤振导数识别的协方差块Hankel矩阵法,同济大学学报,2007,35(5):587-591.

76. 祝志文,陈政清,顾明,自锚式悬索桥加劲梁颤振特性的CFD研究,湖南大学学报(自然版),2007,34(3): 6-10。

77. 祝志文,陈政清,大跨刚构桥最大悬臂阶段驰振稳定性的数值风洞研究,中南公路工程,2007,32(1):5-9。

78. 祝志文,陈政清,理论平板及中央开槽平板颤振特性的CFD研究,湖南大学学报(自然科学版), 2006,33(5),16-20。

79. 祝志文,汪志昊,陈政清,三汊矶大桥抗风稳定性与风致响应试验研究,中南公路工程,2006,31(4):19-24。

80. 祝志文,顾明,基于自由振动响应识别颤振导数的特征系统实现算法,振动与冲击,2006,25(5),28-31。

81. 祝志文,陈政清,顾明,薄平板气动导数的数值仿真技术,湖南大学学报(自然科学版),2005,32(5),11-15。

82. 祝志文,陈政清,数值模拟桥梁断面的颤振导数和颤振临界风速,中国公路学报,2004,15(4),41-50。


国际会议论文

1. Zhiwen Zhu, Fatigue evaluation of diaphragm cutout on an orthotropic steel bridge with heavy freight transportation, Bridge engineering Institute Conference, July 22-25, 2019, Honolulu, Hawaii, USA.

2. Zhiwen Zhu, Yan Huang, Wei Chen, Ze Xiang, Peng Yu, Stress Monitoring at Connection Details on Fochen West Bridge with Orthotropic Steel-UHPC Composite Deck, 1st International Conference on UHPC Materials and Structures, October 27-30, 2016, Changsha, China, RILEM Publications S.A.R.L. 270-281.

3. Zhiwen Zhu, Li Liu, Tian Wang, Yaguang Shi, Wei Chen, Peng Yu, The Vibration Tests and Modal Identification for Fochen New Bridge with Steel-RPC Composite Pavement on Steel Box Girder, 1st International Conference on UHPC Materials and Structures, October 27-30, 2016, Changsha, China, RILEM Publications S.A.R.L. 506-515.

4. Ze Xiang, Zhiwen Zhu, Yan Huang, Tian Wang, FEM Analysis on Fatigue Cracking Mechanism of Diaphragm Cutout in Orthotropic Steel Decks, ASCE/The 4th orthotropic bridge conference proceedings, September 21-24, 2015,Tianjin, China, 125-136.

5. Zhiwen Zhu, Yan Huang, Wei Chen, Ze Xiang, Tian Wang, Investigation On Base Metal Cracking On Diaphragm Cutout At Self-Anchored Suspension

Bridges, ASCE/The 4th orthotropic bridge conference proceedings, September 21-24, 2015,Tianjin, China, 291-302.

6. Zhiwen Zhu, Chen Wei, Huang Yan, Vortex shedding pattern around fixed bridge box girders considering deck railings, The 7th International Conference On Vibration Engineering, September 18-20, 2015, Shanghai, China.

7. Ze Xiang, Zhiwen Zhu, Fatigue Evaluation of Diaphragm Cutout in Orthotropic Steel Decks with refined FEM models,The 2nd International Symposium on Life-Cycle Performance of Bridge and Structures, Dec 18-20,Changsha,China.

8. Yan Huang, Zhiwen Zhu, The discussion for the construction control standards of the three towers concrete box girder cable-stayed bridge, The 2nd International Symposium on Life-Cycle Performance of Bridge and Structures, Dec 18-20,Changsha,China.

9. Peng Yu,Zhiwen Zhu, Comparative Studies Between Chinese Code and US Code on Prediction of Local Scour Depth Around Bridge Piers, The 2nd International Symposium on Life-Cycle Performance of Bridge and Structures, Dec 18-20,Changsha,China.

10. Zhiwen Zhu, Fatigue damage survey and intensive investigation based on field monitoring and FEM analysis on orthotropic steel deck bridges,The 2nd International Symposium on Life-Cycle Performance of Bridge and Structures, Dec 18-20,Changsha,China.

11. Zhiwen Zhu, Zhengqing Chen, 3D LES prediction of unsteady pressure on a circular cylinder at Re=4.1×104 , The 25th International Conference on Parallel Computational Fluid Dynamics, Changsha, 2013.5.

12. Zhiwen Zhu, Zhengqing Chen, Large Eddy Simulation of Aerodynamics of a Flat Box Girder on Long-span Bridges, The 25th International Conference on Parallel Computational Fluid Dynamics, Changsha, 2013.5.

13. Zhu Zhiwen, Along-wind self-excited forces of two-dimensional cables under extreme wind speeds, The Seventh International Colloquium on Bluff Body Aerodynamics and Applications (BBAA7) Shanghai, China; September 2-6, 2012.

14. Shining Zhang, Zhiwen Zhu, Numerical Simulation with PCA analysis of flow around 1:5 rectangular cylinder, The Seventh International Colloquium on Bluff Body Aerodynamics and Applications (BBAA7) Shanghai, China; September 2-6, 2012

15. Zhu Zhiwen, Chen Zhengqing Wang Zhihao, Considering Mutual Aerodynamic Interference of Bridges in Identification of Flutter Derivatives of Bridges in Wind Tunnel, International Symposium on Life-Cycle Performance of Bridges and Structures,2010, Science press.

16. Zhu Zhiwen, Xia Chang, Chen Zhengqing, The influence of solid surface under bridges on aerolastic instability of bridges, International Symposium on Life-Cycle Performance of Bridges and Structures,2010, Science press.

17. Zhiwen Zhu, Zhenqing Liu, Three-Dimensional Numerical Simulation for Local Scour around a Cylindrical Bridge Pier, International Symposium on Life-Cycle Performance of Bridges and Structures,2010, Science press.

18. Zhiwen Zhu, Zhenqing Chen, Youxiang Li, Identification of flutter derivatives of bridges with ERA and its modifications. The Seventh Asia-Pacific Conference on Wind Engineering, 2009, Taiwan.

19. Zhiwen Zhu, Youxiang Li, Zhaoxiang Wang, Zhengqing Liu, Identification of Aerodynamic Models of Bridge Decks from Numerical Simulation, the Tenth International Symposium on Structural Engineering for Young Experts, Proceedings of the Tenth International Symposium on Structural Engineering for Young Experts. Oct. 2008, Changsha, China: 1673-1678.

20. Zhiwen Zhu, Bigang Tang, Zhengqing Liu, Earthquake evaluation of urban bridge with complicated configuration, The 14th World Conference on Earthquake Engineering, October 12-17, 2008, Beijing, China.

21. Zhi-Wen Zhu, Zheng-Qing Chen, Guang-dong Liu, Wind Engineering Researches in HD-2 Boundary Layer Wind Tunnel with Two Test Sections. The Sixth Asia-Pacific Conference on Wind Engineering, 2005,Seoul, Korea.

22. Zhi-Wen Zhu, Zheng-Qing Chen, Guang-dong Liu, CFD simulations for flutter derivatives and mechanisms of the ideal thin plate with and without slot. The Sixth Asia-Pacific Conference on Wind Engineering, 2005,Seoul, Korea.

23. Zheng-Qing Chen, Yan Han, Zhi-Wen Zhu, Kai-yan Li, Wind loads & effects of rigid frame bridges with twin-legged high piers at erection stages. The Sixth Asia-Pacific Conference on Wind Engineering, 2005, Seoul, Korea.

24. Zhi-Wen Zhu, Ming Gu,In application of Covariance Block Hankel Matrix method to identification of bridge deck aerodynamic parameters, The Second International Conference On Dynamics, Vibration and Control, Beijing, 2006, 367-368.

25. Zhi-Wen Zhu, Zheng-qing Chen,Computation of Flutter Derivatives of Bridge Deck by Arbitrary Lagrangian Eulerian Finite Volume Method,The Second International Conference on Dynamics, Vibration and Control,Beijing, 2006, 369-370.

26. Zhi-Wen Zhu, Ming Gu,Zheng-qing Chen, a new method for identification of flutter derivatives of bridges with 3211 multi-step input and system identification technique, Twelfth International Conference on Wind engineering, Cairrns, Australia, July 1-6, 2007.

27. Zhi-Wen Zhu, Ming Gu,Zheng-qing Chen, development of discrete-time aerodynamic models to predict aeroelastic response of bridges, Twelfth International Conference on Wind engineering, Cairrns, Australia, July 1-6, 2007.

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