Professor
Supervisor of Master's Candidates
Supervisor of Doctorate Candidates
历任西南交通大学科学技术处副处长、土木工程学院副院长职务
E-Mail:
Business Address:School of Civil Engineering, Southwest Jiaotong University, 111 North Section of Second Ring Road, Chengdu
MOREZHU Bing
Professor
Email: zhubing126@126.com; zhubing@swjtu.edu.cn
Office: Room 1538, First Academic Building, Jiuli Campus
Bio
Education
PhD, Southwest Jiaotong University, Bridge and Tunnel Engineering (1993)
M.A., Southwest Jiaotong University, Computational Mechanics (1989)
B.S., Southwest Jiaotong University, Bridge Engineering (1986)
Employment
Academic Appointments
Professor, Department of Civil Engineering, Southwest Jiaotong University, China (2000-present)
Associate Professor, Department of Civil Engineering, Southwest Jiaotong University, China (1995-2000)
Associate Research Fellow, Department of Civil and Environmental Engineering, The Hong Kong Polytechnic University, HK, China (1999-2000)
Postdoctoral Fellow, Department of Civil Engineering, The University of Hong Kong, HK, China (1997-1998)
Administrative Appointments
Deputy Dean, Department of Civile Engineering (2015-2017)
Deputy Director, Department of Science and Technology (2009-2015)
Research Interests
Coastal Bridge Engineering, Fluid-Structure Interaction, Wind-Wave Dynamic Interaction, Wind-Wave-Vehicle-Bridge Coupling Vibration, Steel-Concrete Composite Structural Mechanics, Bridge Structural Dynamics
SELECTED PUBLICATIONS
Principal Publications of the Last Five Years
[1] Yang Z, Huang B, Kang A, et al. Experimental study on the solitary wave-current interaction and the combined forces on a vertical cylinder [J]. Ocean Engineering, 2021, 236: 109569.
[2] Han J, Zhu B, Lu B, et al. The influence of incident angles and length-diameter ratios on the round-ended cylinder under regular wave action [J]. Ocean Engineering, 2021, 240: 109980.
[3] Azhen Kang, Bing Zhu, Pengzhi Lin et al. Experimental and numerical study of wave-current interactions with a dumbbell-shaped bridge cofferdam[J]. Ocean Engineering, 2020; 210(15):1-22.
[4] Zhang J , Zhu B , Kang A , et al. Experimental and numerical investigation of wave-current forces on coastal bridge superstructures with box girders[J]. Advances in Structural Engineering, 2020, 23(7):1438-1453.
[5] Bo Huang, Qingyang Ren, Xiaolu Cui, Tong Wan, Chengran Zhang, Bing Zhu*, Hao Ding. Wave characteristics and spectrum for Pingtan Strait Bridge location[J]. Ocean Engineering, 2021; 219:1-15.
[6] Zhiying Yang, Bo Huang, Bing Zhu, Jiawei Zhang, Azhen Kang. Comparative study of tsunami-like wave induced forces on box girder and T-type girder[J]. Journal of Bridge Engineering, 2021; 26(2)
[7] Huang B, Yang Z, Zhu B, et al. Vulnerability Assessment of Coastal Bridge Superstructure with Box Girder under Solitary Wave Forces through Experimental Study[J]. Ocean Engineering, 2019, 189: 106337.
[8] Huang B , Duan L , Yang Z , Zhang J, Kang A, Zhu B. Tsunami Forces on a Coastal Bridge Deck with a Box Girder[J]. Journal of Bridge Engineering, 2019, 24(9):04019091.1-04019091.21.
[9] Tan Y, Zhu B, Qi L, et al. Mechanical Behavior and Failure Mode of Steel–Concrete Connection Joints in a Hybrid Truss Bridge: Experimental Investigation[J]. Materials, 2020, 13(11): 2549.
[10] Tan Y, Zhu B, Yan T, et al. Experimental study of the mechanical behavior of the steel–concrete joints in a composite truss bridge[J]. Applied Sciences, 2019, 9(5): 854.
[11] Bo Huang, Bing Zhu*, Shengai Cui, Lunliang Duan, Jiawei Zhang. Experimental and numerical modeling of wave forces on coastal bridge superstructures with box girders, Part I: Regular waves[J]. Ocean Engineering, 2018, 149: 53-77.
[12] Huang B, Zhu B, Cui S, et al. Influence of Current Velocity on Wave-Current Forces on Coastal Bridge Decks with Box Girders[J]. Journal of Bridge Engineering, 2018, 23(12): 04018092.
[13] Wang X, Zhu B, Cui S, et al. Experimental research on PBL connectors considering the effects of concrete stress state and other connection parameters[J]. Journal of Bridge Engineering, 2017, 23(1): 04017125.
[14] XueweiWang, BingZhu*, ShengaiCui. Research on Collapse Process of Cable-stayed Bridges under Strong Seismic Excitations[J]. Shock and Vibration, 2017(2017): 1-18.
[15] Duan L., Jeng, D.S., Wang, S., and Zhu B., 2019. Numerical investigation of the wave/current–induced responses of transient soil around a square mono-pile foundation[J]. Journal of Coastal Research, 35(3), 625–636. Coconut Creek (Florida), ISSN 0749-0208.
[16] Duan L L, Jeng D-S, Zhang Q B, Zhu B. Numerical study for wave-induced oscillatory seabed response around pile foundations using OpenFOAM[J]. International Journal of Offshore and Polar Engineering, Vol. 29, No. 2, June 2019, pp. 217–227.
[17] Duan L L, Jeng D-S, Liao C C, Zhu B. Three-dimensional poro-elastic integrated model for wave and current-induced oscillatory soil liquefaction around an offshore pipeline[J]. Applied Ocean Research, 68 (2017) 293–306.
[18] Baoshan Xiang , Zhiying Yang*, Bing Zhu and Ruitao Yin. Numerical Investigation of Extreme Wave-Induced Loading on Box Girder in Marine Environment[J]. Journal of Marine Science and Engineering, 2018, 23(1): 10.3390.
[19] Baoshan Xiang, Bo Huang, Zhiying Yang, Bing Zhu, et al. Influences of Pile Group Effects on Wave Forces on an Offshore Bridge Pile-Cap Foundation[J]. challenges, 2017,8(2),30.
[20] Azhen Kang, Pengzhi Lin, Bing Zhu. Numerical simulation of wave interaction with vertical circular cylinders of different submergences using immersed boundary method[J], Computers & Fluids,2015, 106: 41-53.
[21] 康啊真,祝兵,韩嘉怡,张家玮,杨志莹.聚焦波浪对哑铃型跨海桥梁围堰作用的试验研究[J].土木工程学报,2019,52(10),93-100.
[22] 祝兵,黄博,康啊真,张家玮.跨海桥梁上部结构极端波浪(流)作用2019年度研究进展[J].土木与环境工程学报(中英文),2020,42(05):106-114.
[23] 潘良,祝兵,张家玮,康啊真.考虑多土层的波-流荷载下跨海桥梁桩基动力响应分析[J].铁道标准设计,2020,64(12):76-82.
[24] 张家玮, 康啊真, 祝兵,等. 孤立波边界对流线型箱梁静气动力系数的影响[J]. 铁道科学与工程学报, 2019, 16(10):2497-2504.
[25] 纪尊众, 樊立龙, 赵多苍,祝兵,康啊真,李志辉. 大尺度矩形钢吊箱上波流力计算方法研究[J]. 铁道建筑技术, 2019(3):1-6.
[26] 祝兵,殷瑞涛,张家玮,康啊真,杨志莹. 哑铃型跨海桥梁围堰不规则波浪力试验研究[J]. 铁道科学与工程学报, 2020, 17(8):2004-2012.
[27] 崔圣爱,刘 品,晏先娇,符 飞,祝 兵. 横风环境下跨海大桥列车-桥梁系统耦合振动仿真研究[J]. 铁道学报,2020, 42(6):93-101.
[28] 张程然,祝 兵,张 振,赵雨佳. 临港长江公铁两用大桥3号墩组合围堰施工技术[J]. 桥梁建设,2020, 50(4):101-106.
[29] 张程然,祝兵,张振,赵雨佳,宋凡. 深水基础哑铃型新型组合围堰结构计算方法研究[J]. 铁道科学与工程学报, 2020, 17(8):1957-1969.
[30] 刘勇、祝兵、薛世豪、张程然. 临港长江公铁两用大桥混合结构围堰施工技术[J]. 铁道标准设计, 2020, 64(12):1-7.
[31] 刘勇、祝兵、张程然、张家玮. 哑铃形咬合桩围堰水流力作用试验研究[J]. 铁道标准设计, 2020, 64(10):72-76.
[32] 祝兵,张家玮,潘良,等.跨海桥梁哑铃形围堰规则波浪力试验研究[J].桥梁建设,2019,49(05):21-26.
[33] 祝兵,杨志莹,康啊真,李鑫,熊志鹏,张家玮.自由液面效应对跨海桥梁桩基波浪力的影响[J].铁道科学与工程学报,2019,16(11):2734-2741.
[34] 王学伟, 祝兵, 刘国军,等. 桩土作用下公铁两用斜拉桥强地震倒塌研究[J]. 铁道工程学报,2019, (3):38-44.
[35] 康啊真,殷瑞涛,祝兵,李鑫,张家玮.基于LES的跨海桥梁施工期围堰波流力数值模拟[J].西南交通大学学报,2020,55(03):537-544+589.
[36] 黄博, 段伦良, 祝兵. 三维波浪作用下钢吊箱围堰下放过程受力研究[J]. 西南交通大学学报,2018,53(3):525-532.
[37] 张家玮, 祝兵, 康啊真, 等. 跨海桥梁箱梁结构受波浪力作用试验研究[J]. 土木工程学报,2017,50(12):80-86.
[38] 许基厚,王学伟,祝 兵,康啊真,谢明志. 非对称单侧混合梁斜拉桥多点激励地震响应分析[J]. 地震工程学报, 2019, 41(5):1207-1214.
[39] 康啊真,张家玮,祝兵*, 等. 斜向波流与大尺度矩形承台相互作用的数值模拟[J]. 世界桥梁,2019,47(1):65-70.
[40] 向宝山, 王少华, 蔡子龙, 祝兵*, 等. 海洋环境中复合桩基水平方向波浪荷载研究[J]. 西南交通大学学报,2018,53(1):102-108.(EI收录)
[41] 陈林雅,郑东生,王盼娣,祝 兵. 基于波浪-多孔介质海床-结构物耦合模型的单桩基础波浪力分析[J]. 工程力学,2019,36(11):72-82.(EI收录)
[42] 韩 兴, 崔圣爱,崔恩旗, 苏 姣, 祝 兵. 基于失效概率法的桥梁地震风险评估[J]. 西南交通大学学报,2018,53(4):696-703.(EI收录)
[43] 刘一飞,郑东生,杨 兵,祝 兵,孙明祥. 粒径及级配特性对土体渗透系数影响的细观模拟[J]. 岩土力学,2019,40(1):403-412.(EI收录)
[44] 宋随弟, 黄博, 祝兵*, 等. PBL剪力键承载能力研究[J]. 西南交通大学学报,2017,52(4),8.(EI收录)
[45] 段伦良, 郑东生, 张启博, 祝兵, 杨兵. 半埋式海底管道周围海床瞬态液化稳定性研究[J]. 西南交通大学学报,2017,52(4):671-677.(EI收录)
[46] 向宝山, 祝兵*, 段伦良, 等. 方形截面深水桥墩的地震响应分析方法研究[J]. 桥梁建设,2017,47(03):59-64. (EI收录)
[47] 韩文超, 刁飞, 曾志文, 祝兵*. 钢桁-混凝土T构组合桥温度效应研究[J]. 北方交通,2017,(06):6-10.
[48] 祝兵*, 吴晓辉. 波纹钢腹板连续刚构桥动力特性及抗震性能分析[J]. 华东公路,2017,(02):15-17.
[49] 段伦良, 张启博, 黄博, 祝兵. 极端波浪荷载作用下近海桥梁下方海床瞬态液化稳定性研究[J/OL]. 岩土力学,2017,38(07):2113-2118. (EI收录)
[50] 韩兴, 王学伟, 祝兵*, 等. 大直径混凝土榫PBL连接件力学性能试验[J]. 长安大学学报(自然科学版),2017,37(01):67-75.
[51] 崔圣爱,刘品,曹艺缤,韩兴,祝兵. 多线铁路车桥耦合振动仿真研究[J]. 西南交通大学学报,2017,52(5):835-843.(EI收录)
[52] 祝兵, 王学伟. 考虑横向预应力效应的钢-混组合梁桥PBL剪力键试验研究[J]. 西南交通大学学报, 2016, 51(4):621-631.
Selected Awards and Honors
First Prize, Science & Technology Achievement Award of Chongqing City, 2021
First Prize, Science & Technology Achievement Award of China Railway Society, 2019 & 2020
Second Prize, Science & Technology Achievement Award of Shanxi Province, 2019
Third Prize, Science & Technology Achievement Award of China Railway Society, 2016
Second Prize, Science & Technology Achievement Award of Railway Ministry, 1997
Professional Activities
Expert Reviewer, National Science & Technology Achievement Award, Ministry of Science and Technology
Expert Reviewer, Natural Science Foundation Project
Editorial Board Member, Journal of Urban Rail Transit
Peer Reviewer, Ocean Engineering; Applied ocean research; Structural Engineering and Mechanics; Construction & Building Materials; Advances in Structural Engineering, etc
RESEARCH
Current Research
Investigation on Running Safety and Control Method for High-Speed Railway Bridge Exposed to Combined Wind and Wave Actions, National Natural Science Foundation of China - China railway corporation high-speed railway basic research joint fund project (2019-2022)
Dynamic Simulation and Intelligent Management Technology of High-Speed Railway Bridge Construction Process in Complex and Dangerous Mountainous Areas, National Natural Science Foundation of China - China railway corporation high-speed railway basic research joint fund project (2021-2024)
Preliminary Study on Technologies of Super Long Span (1000m-1500m) Sea Crossing Bridge of Yongzhou Railway, Science & Technology Key Project of China Railway Corporation (2018-2020)
Basic Theory and Application of Sea Crossing Bridge-Wave-Current Interaction under Complex Marine Environment, Frontier Projects of Applied Basic Research in Sichuan Province (2017-2019)
Research Group
Xinyi WANG, Postdoctoral Fellow, email: xinyi.wang@swjtu.edu.cn
Yingliang TAN, Ph.D. Candidate, email: yingliang_tan@my.swjtu.edu.cn
Chengran ZHANG, Ph.D. Candidate, email: zhangchengran@my.swjtu.edu.cn
Zhiying YANG, Ph.D. Candidate, email: zhiyingyang@my.swjtu.edu.cn
Ruitao YIN, Ph.D. Candidate, email: yinruitao@my.swjtu.edu.cn
Jiayi HAN, Ph.D. Candidate, email: 965283285@qq.com
Xin LI, Ph.D. Candidate, email: 331058939@qq.com
Yanling LIU, Ph.D. Candidate, email: 653545921@qq.com
Zhen ZHANG, Ph.D. Candidate, email: 943989887@qq.com
Master Degree Candidate: Fan SONG, Le QI, Lingyun SHI, Zhenyu YANG, Yiqun SHI, Han ZHANG, Yujia ZHAO, Baojie LU, Lei LUO, Xiaozu BAI, Haoyu WANG, Dayu HU, Lei LEI, Yuezhi ZHANG, Junnan LI, Yuhang HE, Xinyu BI, Shuaiwei YUAN, Yiran YANG
TEACHING
Primary Teaching areas
Fluid-Structure Interaction
Multi-Field Coupling Theory
Structural Engineering
Current Courses
Master Course, Multi-Field Coupling Theory and Method for Structural Engineering
Undergraduate Course, Curriculum Design of Bridge Engineering
GRADUATE SUPERVISION
I am available for supervision.