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刘中祥,安徽池州人,东南大学副教授、博士生导师、中共党员,入选江苏省青年科技人次托举工程、江苏省“双创博士”人才计划等,东南大学桥梁研究中心桥梁动力灾变及安全调控研究室副主任,长大桥梁安全长寿与健康运维全国重点实验室长寿保障研究院寿命预测研究所副所长。2012年毕业于重庆大学土木工程学院,保研东南大学攻读硕士,2019年博士毕业于东南大学,师从郭彤教授;2015年于美国弗吉尼亚理工访学,2019年于美国哥伦比亚大学从事博士后研究工作,师从结构健康监测领域专家Renwick Prof. Maria Q. Feng(冯青教授)。
主要从事结构性能评估与提升、结构水动/气动力分析与控制、新型传感与桥梁智能化、悬浮隧道与海上结构、结构抗疲劳分析与设计理论等研究工作。主持国家重点研发计划青年科学家项目(课题负责人)、国家自然科学基金、国家重点研发计划子课题、江苏省自然科学基金各1项,参与省部国家级科研课题10余项。获江苏省科学技术一等奖(7/11)、中国公路学会科学技术特等奖(4/25)、日内瓦发明展特别嘉许金奖(4/4)各1项,荣获刘恢先地震工程奖学金(美中地震工程学基金会)、江苏省土木学科吕志涛院士优秀博士论文、省/校土木专业优秀毕业生(3次)、国家奖学金(3次)等奖励10余项。
发表SCI论文60余篇;获批/申请国家发明专利6件、软件著作权6项;参编行业/省级标准7部。受邀担任《International Journal of Structural Integrity》、《防灾减灾工程学报》、《智能海洋技术与系统(英文)》等青年编委,以及SCI期刊《Applied Sciences-Basel》、《Materials》等客座编辑。
1. 国家重点研发计划青年科学家项目,在役特大跨桥梁寿命演化理论与建模(2022YFB2602700),2022.12.01-2025.11.30,课题负责人;
2. 国家自然科学基金青年项目,波流作用下悬浮隧道锚索非线性振动机理及疲劳性能研究(52108272),2022.01-2024.12,主持;
3. 江苏省自然科学基金青年基金,水下悬浮隧道锚索非线性振动机制及疲劳性能研究(BK20210251),2021.07-2024.06,主持;
4. 国家自然科学基金面上项目,桥梁吊索腐蚀-微动磨损耦合疲劳灾变机理及寿命评估方法研究(51978156),2020.01-2023.12,参与 (排名2);
5. 重点研发计划“战略性国际科技创新合作”重点专项,强震地震动模拟与空间化信息集成技术合作研发与应用示范(2018YFE0206100),参与 (项目骨干,排名13);
6. 2021 年度江苏省政策引导类计划(国际科技合作/港澳台科技合作),重大土木工程基础设施疲劳性能智能监测与寿命提升技术的合作研发(BZ2021011),2021.06-2023.05,参与(排名2);
7. 江苏省重点研发计划项目,基于数字孪生的智慧桥梁建养一体化关键技术与系统研发(BE2021089),参与(排名7);
8. 中国能源建设集团江苏省电力建设第一工程有限公司,抽蓄电站库区漂浮光伏系泊系统适应性能试验研究(H202230155),2022.07.01-2022.12.31,参与(排名2)
9. 中国能源建设集团江苏省电力建设第一工程有限公司,抽水蓄能电站漂浮光伏可行性研究(H202230021),2022.01.31-2022.04.01,参与(排名2)
10. 苏交科(陕西)检测认证有限公司,青海省跨航道黄河大桥(三座)抗撞性能分析与评估(H202220916),2021.07.01-2023.03.01,参与(排名2)
主持国家重点研发计划青年科学家项目(课题负责人)、国家自然科学基金、国家重点研发计划子课题、江苏省自然科学基金各1项,参与省部国家级科研课题10余项。
1. 国家重点研发计划青年科学家项目,在役特大跨桥梁寿命演化理论与建模(2022YFB2602700),2022.12.01-2025.11.30,课题负责人;
2. 国家自然科学基金青年项目,波流作用下悬浮隧道锚索非线性振动机理及疲劳性能研究(52108272),2022.01-2024.12,主持;
3. 江苏省自然科学基金青年基金,水下悬浮隧道锚索非线性振动机制及疲劳性能研究(BK20210251),2021.07-2024.06,主持;
4. 国家自然科学基金面上项目,桥梁吊索腐蚀-微动磨损耦合疲劳灾变机理及寿命评估方法研究(51978156),2020.01-2023.12,参与 (排名2);
5. 重点研发计划“战略性国际科技创新合作”重点专项,强震地震动模拟与空间化信息集成技术合作研发与应用示范(2018YFE0206100),参与 (项目骨干,排名13);
6. 2021 年度江苏省政策引导类计划(国际科技合作/港澳台科技合作),重大土木工程基础设施疲劳性能智能监测与寿命提升技术的合作研发(BZ2021011),2021.06-2023.05,参与(排名2);
7. 江苏省重点研发计划项目,基于数字孪生的智慧桥梁建养一体化关键技术与系统研发(BE2021089),参与(排名7);
8. 中国能源建设集团江苏省电力建设第一工程有限公司,抽蓄电站库区漂浮光伏系泊系统适应性能试验研究(H202230155),2022.07.01-2022.12.31,参与(排名2)
9. 中国能源建设集团江苏省电力建设第一工程有限公司,抽水蓄能电站漂浮光伏可行性研究(H202230021),2022.01.31-2022.04.01,参与(排名2)
10. 苏交科(陕西)检测认证有限公司,青海省跨航道黄河大桥(三座)抗撞性能分析与评估(H202220916),2021.07.01-2023.03.01,参与(排名2)
主要从事结构性能评估与提升、结构水动/气动力分析与控制、新型传感与桥梁智能化、悬浮隧道与海上结构、结构抗疲劳分析与设计理论等研究工作。已发表学术论文60余篇,获批/申请国家发明专利6件、软件著作权6项;参编行业/省级标准7部。
标准规范
大跨桥梁疲劳监测与评估标准(T/CECS***-2021), 中国工程建设标准化协会, 参编
结构健康监测系统运行维护与管理标准(T/CECS 652-2019),中国工程建设标准化协会,参编
结构健康监测系统施工及验收标准(T/CECS 765-2020),中国工程建设标准化协会,参编
低强度运维海上光伏电站材料设计要求(T/CMEPCA 077-2025),中国机电产品流通协会标准,参编
漂浮式海上风电用锚固系统技术规范(T/CIET XXX-2025),中国国际经济技术合作促进会标准, 参编
海上风电监测用巡检机器人(T/CIET XXX-2025),中国国际经济技术合作促进会标准, 参编
漂浮式海上风电用系泊系统技术规范(T/CIET XXX-2025),中国国际经济技术合作促进会标准,参编
代表性论文
发表学术论文80余篇,其中一作/通讯论文40余篇
[1] Zhongxiang Liu, Haojun Cai, Tong Guo*, Xingwang Liu, Yongtao Bai, Chunxu Qu. Monitoring-based evaluation of wind-induced vibration and travel comfort of long-span suspension bridge. Structural Control and Health Monitoring, 2025, 2025(1): 9962003. (JCR一区,IF: 4.6,被引0次)
[2] Zhongxiang Liu, Tong Guo*, Hongyu Ren, José Correia, Jie Liu, Maria Q Feng. Corrosion-fretting fatigue analysis of bridge cables based on multi-factor competition model and time-dependent reliability. ASCE’s Journal of Bridge Engineering, 2024, 29(1): 04023106. (JCR二区,IF: 3.1,被引5次)
[3] Zhongxiang Liu, Xueji Shi, Tong Guo*, Hongyu Ren, Minte Zhang. Investigation on hydrodynamic response and characteristics of a submerged floating tunnel based on hydrodynamic tests. Ocean Engineering, 2024, 300: 117187. (JCR一区,IF:4.6,被引4次)
[4] Zhongxiang Liu, Shilei Niu, Jing Qian, Tong Guo*. Investigation on flooding dynamic response and mitigation measure of river bridge. Engineering Failure Analysis, 2025, 167: 108987. (JCR一区,IF: 4.4,被引1次)
[5] Zhongxiang Liu, Songyuan Tan, Dongdong Jia, Chao Sun, Zhiyu Jiang, Tong Guo, Zhen Sun*. Exploring scour mechanisms of bridge groups under tidal conditions: in-situ survey, laboratory experiment, and numerical analysis. Ocean Engineering. 2025,338: 122025. (JCR一区,IF: 5.5)
[6] Zhongxiang Liu, Xueji Shi Tong Guo*, Hongyu Ren, Jun Yu. Assessment of regular and earthquake-induced wave hydrodynamic tests of moored and end-fixed submerged floating tunnels. Journal of Fluids and Structures, 2025. (JCR一区,IF: 4.2,被引0次)
[7] Zhongxiang Liu, Xueji Shi, Tong Guo*. Numerical estimation of static and dynamic response of submerged floating tunnel under wave and cable breakage conditions. International Journal of Structural Stability and Dynamics, 2025, 2025:1-32. (JCR二区,IF: 3.0)
[8] Zhongxiang Liu, Songyuan Tan, Dongdong Jia, Chao Sun, Zhiyu Jiang, Tong Guo, Zhen Sun. Exploring scour mechanisms of bridge group under tidal conditions: in-situ survey, laboratory experiment, and numerical analysis. Ocean Engineering. 2025.
[9] Zhongxiang Liu, Xueji Shi, Tong Guo*, Jun Yang, José Correia. Damage Diagnosis and Fretting Wear Performance analysis of Short Suspenders in Cable-supported Bridges. Structures, 2023, 56: 104909. (JCR一区,IF: 3.9,被引9次)
[10] Zhongxiang Liu, Tong Guo*, Xiaming Yu, Shilei Niu, José Correia. Corrosion Fatigue Assessment of Bridge Cables Based on Equivalent Initial Flaw Size Model. Applied Sciences-Basel, 2023, 13(18): 10212. (JCR一区,IF: 2.5,被引0次)
[11] Zhongxiang Liu, Tong Guo*, Xiaming Yu, Xuelin Huang, José Correia. Corrosion fatigue and electrochemical behavior of steel wires used in bridge cables. Fatigue & Fracture of Engineering Materials & Structures, 2021, 44(1): 63-73. (JCR二区,IF: 3.1,被引43次,Wiley年度最高被引论文)
[12] Zhongxiang Liu*, José Correia, Hermes Carvalho, et al. Global-local fatigue assessment of an ancient riveted metallic bridge based on sub-modelling of the critical detail. Fatigue & Fracture of Engineering Materials & Structures, 2019, 42:546-560. (JCR二区,IF: 3.1,被引62次)
[13] Zhongxiang Liu, Tong Guo*, Daguang Han, Aiqun Li. Experimental study on corrosion-fretting fatigue behavior of bridge cable wires. ASCE’s Journal of Bridge Engineering, 2020, 25(12): 04020104. (JCR二区,IF: 3.1,被引44次)
[14] Zhongxiang Liu, Tong Guo*, Matthew Hebdon, Wanshui Han. Measurement and comparative study on movements of suspenders in long-span suspension bridges. ASCE’s Journal of Bridge Engineering, 2019, 24(5): 04019026. (JCR二区,IF: 3.1,被引29次)
[15] Zhongxiang Liu, Tong Guo*, José Correia, Libin Wang. Reliability-based maintenance strategy for gusset plate connections in steel bridges based on life-cost optimization. ASCE’s Journal of Performance of Constructed Facilities, 2020, 34(5): 04020088. (JCR二区,IF: 3.1,被引16次,ASCE年度最佳期刊论文奖提名)
[16] Zhongxiang Liu*, Matthew Hebdon, José Correia, et al. Fatigue Assessment of Critical Connections in a Historic Eyebar Suspension Bridge. ASCE’s Journal of Performance of Constructed Facilities, 2019, 33(1): 04018091. (JCR二区,IF: 2.3,被引28次,ASCE年度最佳期刊论文奖提名)
[17] Zhongxiang Liu, Tong Guo*, Matthew Hebdon, Shaolei Zhang. Corrosion Fatigue Analysis and Reliability Assessment of Short Suspenders in Suspension and Arch Bridges. ASCE’s Journal of Performance of Constructed Facilities, 2018, 32(5): 04018060. (JCR二区,IF: 2.3,被引67次)
[18] Zhongxiang Liu, Tong Guo*, Linyu Huang, Zhihong Pan. Fatigue Life Evaluation on Short Suspenders of Long-span Suspension Bridge with Central Clamps. ASCE’s Journal of Bridge Engineering, 2017, 22(10): 04017074.(JCR二区,IF: 3.1,被引80次)
[19] Zhongxiang Liu, Tong Guo*, Shengjun Pan, Jie Liu. Forensic Investigation on Cracking in Hanger-to-girder Connections of Long-span Suspension Bridges. Structural Engineering International, 2017, 27(3): 344-352. (JCR三区,IF: 1.1,被引8次)
[20] Zhongxiang Liu, Tong Guo*, Shengjun Pan, Jie Liu. Probabilistic fatigue life prediction of bridge cables based on multiscaling and mesoscopic fracture mechanics. Applied Sciences-Basel, 2016, 6(4): 99. (JCR一区,IF:2.5,被引21次)
[21] Zhongxiang Liu, Tong Guo*, Wenjie Li, Qinghua Zhang, Bin Cheng, José Correia. Fatigue Behavior and Fracture Surface Analysis of Corroded High-Strength Bridge Cable Wires. Materials, 2024,17, 1724. (JCR二区,IF: 3.1,被引0次)
[22] Xueji Shi, Zhongxiang Liu*, Tong Guo, C.S. Cai, Chao Jiang. Investigation on contact stress calculation method of spherical hinge structures for swivel construction. Structures, 2024, 69: 107290. (JCR一区,IF: 3.9,被引1次)
[23] Shilei Niu, Zhongxiang Liu*, Tong Guo, Anxin Guo, Xiudong Xu. Modelling and investigation of long-term performance of high-rise pile cap foundation under wave scour and corrosion. Journal of Marine Science and Engineering, 2025, 13(3), 450. (JCR一区,IF: 2.7,被引0次)
[24] Xueji Shi, Zhongxiang Liu*, Tong Guo, Wanjin Li, Zhiwei Niu, Feng Ling. Research on the flow-induced vibration of cylindrical structures using Lagrangian-based dynamic mode decomposition. Journal of Marine Science and Engineering, 2024, 12(8): 1378. (JCR一区,IF: 2.7,被引0次)
[25] Shilei Niu, Zhongxiang Liu*, Tong Guo, Anxin Guo, Aimin Liu. Dynamic characteristics and force analysis of box girder under tsunami action based on level-set method. Structure and Infrastructure Engineering, 2025: 1-22. (JCR一区,IF: 3.6,被引0次)
[26] Dianyong Wang, Zhongxiang Liu *, Jie Gao, Chuan Li, Tong Guo. Swivel Construction of a Cable-stayed Bridge for Minimal Disturbance to Adjacent Railways. Structural Engineering International, 2022: 1-8. (JCR三区,IF: 1.1,被引6次)
[27] Shilei Niu, Zhongxiang Liu, Tong Guo*, Gao Liu, Zhihong Pan. Investigation on spatial failure mechanisms and flood vulnerability of beam bridges. Engineering Failure Analysis. 2025:110032. (JCR一区,IF: 5.7)
[28] Hongyu Ren, Tong Guo, Zhongxiang Liu*, Guoliang Zhi, Xiangyang Xu. Design and Evaluation of Novel Submerged Floating Tunnel Models Based on Dynamic Similarity. Applied Sciences-Basel, 2024, 14, 3724. (JCR一区,IF:2.5,被引2次)
[29] Tong Guo*, Zhongxiang Liu, José Correia, Abílio de Jesus. Experimental study on fretting-fatigue of bridge cable wires. International Journal of Fatigue, 2020, 131: 105321. (JCR一区,IF: 5.7,被引74次)Shuaike Feng*,
[30] Tong Guo*, Zhongxiang Liu, Jie Liu, Dazhang Han. Diagnosis and Mitigation of Fatigue Damage in Longitudinal Diaphragms of Cable-stayed Bridges. ASCE’s Journal of Bridge Engineering, 2016, 21(11): 05016007. (JCR二区,IF: 3.1,被引14次)
[31] Tong Guo*, Zhongxiang Liu, Shenjun Pan, Zhihong Pan. Cracking of longitudinal diaphragms in long-span cable-stayed bridges. ASCE’s Journal of Bridge Engineering, 2015, 20(11): 04015011. (JCR二区,IF:3.1,被引30次)
[32] Tong Guo*, Zhongxiang Liu, Jinsong Zhu. Fatigue Reliability Assessment of Orthotropic Steel Bridge Decks based on Probabilistic Multi-scale Finite Element Analysis. Advanced Steel Construction, 2015, 11(3): 334-346. (JCR三区,IF: 1.7,被引27次)
[33] Tong Guo*, Daqiang Qin, Yi Zou, Zhongxiang Liu. Research and Development of Corrosion Monitoring Sensor for Bridge Cable using Electrical Resistance Probes Technique, Measurement, 2024: 115178.(JCR一区,IF:5.2,被引2次)
[34] Zhongxiang Liu, Xuejun Zhou, Zhengxing Guo. Seismic performance of curved haunched connections in modularized prefabricated steel structures. Journal of Constructional Steel Research, 2020, 172: 106188. (JCR一区,IF:4.0,被引14次)
[35] 韩大章, 郭彤, 黄灵宇, 刘中祥. 随机车辆荷载下大跨钢桥伸缩缝纵向位移响应及病害控制研究.振动与冲击,2019, 24: 172-178. (EI)
[36] 智国梁,郭彤*,刘中祥,陈振宇,徐鑫. 地铁上盖物业车致振动特性与减振措施研究. 工程力学, 2023, 1-13.
欢迎土木工程专业或力学、编程、数学、英语基础好的其他专业同学报考硕士、博士。
通讯地址:东南大学九龙湖校区交通学院710
Email: zhongxiang@seu.edu.cn
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