职称:副教授
学位:博士
1. 桥梁在地震作用下的倒塌机理与加固技术
2. 新型智能桥梁结构体系的可恢复功能抗震
3. 基于无线健康监测技术的桥梁抗震性能评估
4. 全寿命期内多灾害作用下功能退化桥梁结构的智能检测、风险评估与管理决策
5. 人机(器人)协同的智能桥梁监测、检测与评估系统 (智能建造方向)
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基于计算机视觉的混凝土桥梁裂缝识别 (与加州大学伯克利分校合作研究)
Y Zheng, Y Gao*, S Lu and KM Mosalam. Multistage semisupervised active learning framework for crack identification, segmentation, and measurement of bridges.
Computer-Aided Civil and Infrastructure Engineering, 2022, 1–20. https://doi.org/10.1111/mice.12851.
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基于4D激光点云的桥梁施工姿态监测与控制 (与香港大学合作研究)
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1. 国家自然科学基金面上项目,具有分级防护的可恢复功能桥梁结构体系研究 (51978513),2020.01.01-2023.12.31, 主持.
2. 国家自然科学基金面上项目,近断层强震脉冲作用下自复位钢框架的减震机制与 设计对策 (52078359), 2021.01-24.12.31,参与.
3. 国家自然科学基金面上项目,考虑减隔振装置非线性行为的无砟轨道桥梁噪声预测与控制 (51878501), 2019.01.01-2022.12.31,参与.
4. 国家自然科学基金面上项目,强台风荷载作用下输电塔线体系损伤和倒塌机理研究,(51678463), 2017.01.01-2020.12.31, 参与.
5. 上海市科学技术委员会,现役桥梁结构再生的减、隔震加固理论与试验研究, (16PJ1409600), 2016.07.01-2018.6.30,主持.
6. 青海省科技厅,高寒高烈度地震区现役桥梁结构的抗震韧性提升理论与实践研究,(2024-QY-202), 2024.01.01--2026.12.31,主持.
7. 贵州省公路管理局,伸缩缝槽口用早强超韧抗冲击水泥基混凝土复合材料的研究与应用,2023.07.31--2025.08.01, 主持.
8. 广东省交通集团有限公司,基于金马大桥的新旧桥梁防撞性能提升及防撞设施设计方法研究,2024.10.01--2026.09.30,主持.
中文期刊:(*为通讯作者)
1. 王晓冬, 范金国, 王宇霄, 郑 越*, 姜宇飞. 安装形状记忆合金减震系统的斜拉桥地震响应分析, 地震工程与工程振动. 2024.
2. 张哲熹,梁栋,方成,郑越.采用SMA拉索的摇摆自复位桥墩试验研究与动力分析, 世界地震工程, 2020, 36(04):138-146.
3. 古泉, 张宁, 郑越*,高延性纤维增强水泥基复合材料(ECC)连续梁模型在地震荷载下的响应及其敏感性分析,工程力学. 2019, 36(6),157-163,182.
4. 郑越*, 徐利平. 泰州长江公路大桥钢结构桥塔的极限承载力研究, 公路交通科技, 5 (2): 51-53, 2009.
5. 郑越*, 陈兴冲. 考虑基础提离与塑性的桥墩地震反应,地震工程与工程振动. 29 (4): 125-131, 2009.
6. 郑越*, 陈兴冲, 戴利民, 杨士金. 柱式钢筋混凝土桥墩的弹塑性抗震简化计算, 公路交通科技. 23(4): 76-79, 2006.
7. 陈兴冲*, 郑越. 弹塑性Winkler地基上双柱式桥墩的地震反应, 工程力学. 22 (3): 112-117, 2005.
8. 常虹*, 郑越. 竖向承载地下连续墙的沉降计算, 中国公路学报. 16 (3): 73-76, 2003.
英文期刊:(*为通讯作者)
1. S Yu, Y Zheng*, C Fang**, Z Wang. Multi-stage damping plate-restrained bearings: Concepts, experimental validation, and numerical analysis. Engineering Structures, 2024, 300, 117215.
2. C Fang, C Cao, Y Zheng*, H Wu, W Wang and D Liang. Self-Centering energy-dissipative restrainers incorporating SMA ring springs. Journal of Structural Engineering, 2023, 149 (5), 11594.
3. J Guo, K Gao, X Dang, Y Zheng*, H Liang*. Seismic fragility assessment for highway bridges incorporating multi-level shape memory alloy cable dampers. Engineering Structures, 2023, 287, 116172.
4. C Fang, B Ping, Y Zheng*, W Ping, H Liang*. Seismic fragility and loss estimation of self-centering steel braced frames under mainshock-aftershock sequences. Journal of Building Engineering, 2023, 73, 106433.
5. C Fang, X Liu*, W Wang, Y Zheng. Full-scale shaking table test and numerical analysis of structural frames with SMA cable-restrained base isolation. Earthquake Engineering and Structural Dynamics, 42: 1-24, 2023. https://doi.org/10.1002/eqe.3953.
6. C Fang, C Cao, Y Xiao*, Y Zheng. Effect of corrosion on self-centering energy dissipative devices. Engineering Structures, 2023, 293, 116664.
7. X Yang, Y Gao, C Fang*, Y Zheng, W Wang. Deep learning-based bolt loosening detection for wind turbine towers. Struct Control Health Monit. 2022, e2943. doi:10.1002/stc.2943
8. X Li, C Zhang, Y Zheng*, Ning Zhang. A novel constrained UKF method for both updating structural parameters and identifying excitations for nonlinear structures. Soil Dynamics and Earthquake Engineering, 2022, 158, 107291.
9. Y Zheng, Y Gao*, S Lu and KM Mosalam. Multistage semisupervised active learning framework for crack identification, segmentation, and measurement of bridges. Computer-Aided Civil and Infrastructure Engineering, 2022, 1–20. https://doi.org/10.1111/mice.12851.
10. Y Zheng, H Wu*, X You*, H Xie. Model updating-based dynamic collapse analysis of a RC cable-stayed bridge under earthquakes. Structures, 2022, 43: 1100-1113.
11. C Fang, Y Ping, Y Gao*, Y Zheng, Y Chen. Machine learning-aided multi-objective optimization of structures with hybrid braces - Framework and case study. Engineering Structures, 2022, 269, 114808.
12. J Qian, Y Zheng, Y Dong*, H Wu, H Guo, J Zhang. Sustainability and resilience of steel-shape memory alloy reinforced concrete bridge under compound earthquakes and functional deterioration within entire life-cycle. Engineering Structures, 2022, 271, 114937.
13. N Zhang, Y Zheng, H Wu, X You*, J Chen*. A finite element-peridynamic combined multiscale analysis strategy based on implicit integration scheme. Structures, 2022, 45: 799-813.
14. Y Zheng, C Fang*, D Liang, R Sun. An innovative seismic-resilient bridge with shape memory alloy (SMA)-washer-based footing rocking RC piers. Journal of Intelligent Material Systems and Structures, 2021, 32 (5): 549-567.
15. C Fang, F Wang*, C Wang, Y Zheng*. Cyclic behavior of oval hollow section (OHS) beam-columns. Thin-Walled Structures, 2021, 161, 107430.
16. N Zhang, Q Gu, Y Dong, J Qian, Y Zheng*. Seismic performance of bridges with ECC-reinforced piers. Soil Dynamics and Earthquake Engineering, 2021, 146, 106753.
17. Y Ping, C Fang, Y Zheng*. Probabilistic economic seismic loss estimation of steel braced frames incorporating emerging self-centering technologies. Engineering Structures, 2021, 241, 112486.
18. C Fang, D Liang, Y Zheng*, S Lu. Seismic performance of bridges with novel SMA cable-restrained high damping rubber bearings against near-fault ground motions. Earthquake Engineering and Structural Dynamics, 2021, 1-22. https://doi.org/10.1002/eqe.3555.
19. Y Guo, C Fang*, Y Zheng. Post-fire hysteretic and low-cycle fatigue behaviors of Q345 carbon steel. Journal of Constructional Steel Research, 2021, 187, 106991.
20. C Fang, D Liang, Y Zheng*, MCH. Yam, R Sun. Rocking bridge piers equipped with shape memory alloy (SMA) washer springs. Engineering Structures, 2020, 110651, https://doi.org/10.1016/j.engstruct.2020.110651.
21. D Liang, Y Zheng, C Fang*, MCH Yam, C Zhang. Shape memory alloy (SMA)-cable-controlled sliding bearings: development, testing, and system behavior. Smart Materials and Structures, 2020, 085006, https://doi.org/10.1088/1361-665X/ab8f68.
22. Y Zheng and Y Dong*. Performance‑based assessment of bridges with steel‑SMA reinforced piers in a life‑cycle context by numerical approach. Bulletin of Earthquake Engineering, 2019, 17 (3): 1667-1888.
23. C Fang, Y Zheng*, J Chen, MCH Yam, W Wang. Superelastic NiTi SMA cables: thermal-mechanical behavior, hysteretic modelling and seismic application. Engineering Structures, 2019, 183: 533-549.
24. Y Zheng, YL Xu*, S Zhan. Seismic responses and collapse of a RC pedestrian cable-stayed bridge: shake table tests. International Journal of Structural Stability and Dynamics, 2019, 19 (7): 1950067.
25. Y Zheng, Y Dong, B Chen*, GA Anwar. Seismic damage mitigation of bridges with self-adaptive SMA-cable-based bearings. Smart Structures and Systems, 2019, 24 (1): 127-139.
26. Y Zheng, YL Xu*, Q Gu. Nonlinear model updating of a reinforced concrete pedestrian cable‐stayed bridge. Struct Control Health Monit. 2019, e2487. https://doi.org/10.1002/stc.2487.
27. B Chen*, D Yang, Y Zheng, K Feng and Y Ouyang. Response control of a high-rise television tower under seismic excitations by friction dampers. International Journal of Structural Stability and Dynamics, 2018, 18(11): 1850140.
28. Y Zheng, Y Dong* and Y Li. Resilience and life-cycle performance of smart bridges with shape memory alloy (SMA)-cable-based bearings. Construction and Building Materials, 2018, 158:389-400.
29. YL Xu*, Y Zheng and Q Gu. Refined dynamic progressive collapse analysis of RC structures. Bulletin of Earthquake Engineering, 2018, 16(3): 1293-1322.
30. Y Zheng, B Chen* and W Chen. Elasto-plastic seismic response of RC continuous bridges with foundation-pier dynamic interaction. Advances in Structural Engineering, 2015, 18(6): 817-836.
31. Y Zheng*, X Xiao, L Zhi and G Wang. Evaluation on impact interaction between abutment and steel girder subjected to non-uniform seismic excitation. Shock and Vibration, 2015, http://dx.doi.org/10.1155/2015/981804.
32. Y Zheng, Bo Chen* and W Chen. Evaluation on non-uniform seismic responses of a long span cable-stayed bridge based on SHM oriented model. Stahlbau, 2015, 84(4): 252-266, 2015.
33. L. Hu*, Y.L. Xu, and Y. Zheng, Conditional simulation of spatially variable seismic ground motions based on evolutionary spectra. Earthquake Engineering and Structural Dynamics, 41(15): 2125-2139, 2012.
34. Q Li, YL Xu, Y Zheng, A Guo, K Wong and Y Xia. SHM-based F-AHP bridge rating system with application to Tsing Ma Bridge. Frontiers of Architecture and Civil Engineering in China, 5(4): 465-478, 2011.
英文会议:
1. D. Liang, Y Zheng, C Fang. A novel SMA-cable-based pure friction sliding bearing for seismic resilient improvement of highway bridges, 17th World Conference on Earthquake Engineering, 13-18, Oct., 2020, Sendai, Japan.
2. Y. Zheng You Dong. Comparative seismic performance of conventional and resilient bridges with SMA-Cable-Based frictional sliding bearings, The 2017 World Congress on Advances in Structural Engineering and Mechanics, 28 Aug. - 1 Sep., 2017, Seoul, Korea.
3. Y.L. Xu, Y. Zheng, Q. Li, K.Y. Wong, Y. Xia, and A.X. Guo, SHM-Based Bridge Rating System for Long-Span Cable-Supported Bridge, 14th Asia Pacific Vibration Conference, 5-8 December 2011, Hong Kong, China.
4. Y. Zheng, Y.L. Xu, and L. Hu, Seismic Response of Analysis of Long-Span Cable-Stayed Bridge Subjected to Multi-Support Excitation, 5th International Symposium on Environmental Vibration, 20-21, October, 2011, Chengdu, China. (Invited Report)
1. 王晓东, 王新明, 郑越, 张军, 张铭光. 一种智慧型多功能钢绞线锚具. 专利号:ZL 201821646904.1.
2. 王晓东, 王新明, 郑越, 张军, 张铭光. 一种装配式多功能超高性能混凝土智能桥梁支座垫块. 专利号:ZL 201821646899.4.
3. 郑越等. 一种多功能智能SMA拉索减、隔震支座. 专利号:ZL 201620051770.3.
4. 郑越等. 一种多功能智能SMA拉索钢丝网橡胶减、隔震支座. 专利号:ZL 201620049478.
5. 方成,曹晨,梁栋,郑越。 交错内嵌式自复位耗能缓冲限位装置、隔震支座、斜拉索外置式阻尼器和桥梁限位装置. 专利号:ZL202122466504.0
6. 郑越 等。 一种基于阻尼板的耗能缓冲限位减隔震支座.专利号:ZL202222713943.1
7. 郑越等. 一种装配式超韧性道路结构体系, ZL 2023 2 1696131.9. 2023.
1. 研发的超韧性水泥基复合材料用于上海地铁18号线的浮置板湿接缝工程试验段。 (世界上首次在地铁中采用湿接缝的长型浮置板)
2. 研发的智能预应力锚头成功应用于江苏常熟524国道快速路高架桥中。 (世界上首次采用智能预应力锚头用于桥梁的健康监测)
3. 研发的形状记忆合金(SMA)拉索支座成功应用于云南8度地震区的大田坝2号桥中。(世界上首次在实际桥梁工程中采用SMA拉索减隔震支座)
4. 提出了一种既能防反射裂缝又能承受重载车辆的新型路面结构型式,将10厘米厚的超高性能混凝土面层应用于G356福建永安段。(世界上首次采用了
10cm厚薄层承重面层+4cm厚防反射裂缝沥青混凝土垫层的路面结构型式)