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朱劲松




朱劲松 教授 的个人资料






姓名(中文/汉语拼音)

朱劲松 /Zhu Jinsong














职称

教授


职务

桥隧学科负责人


导师资格

博导


所在系、所

土木工程系/桥梁与隧道工程


通讯地址

天津市南开区卫津路92号(300072);海河教育园天津大学北洋园校区43教C209(300350)


电子信箱

jszhu@tju.edu.cn

办公室电话



主要研究方向:

装配化、高性能、长寿命桥梁结构

复杂桥梁结构分析及施工监控

桥梁健康监测、安全评价、风险评估与预警

桥梁智能检测评估(机器视觉与深度学习的应用)

桥梁长期性能评估与提升

全球气候变化对桥梁结构的影响等

主要招收 土木工程硕士、博士研究生及博士后合作人员。


主要学历:

1994.9-1998.7 辽宁工程技术大学bat365官网登录入口建筑学专业学士

1998.9-2001.2 辽宁工程技术大学bat365官网登录入口工程力学专业硕士

2001.3-2003.12 大连理工大学结构工程专业博士


主要学术经历:

2004.1-2006.1 同济大学桥梁工程系,桥梁与隧道工程,博士后

2006.1-2013.12 天津大学土木工程系,桥梁与隧道工程,副教授,硕士生导师

2009.9-2010.3 美国Lehigh大学,大型结构系统国家工程中心,访问学者

2012.12-2013.6 美国旧金山州立大学,工程学院,访问学者

2013.6至今 天津大学土木工程系,桥梁与隧道工程,教授

2014.3至今 天津大学土木工程系,桥梁与隧道工程,博士生导师


主要讲授课程:

1、桥梁施工,本科生,32学时

2、桥梁工程(II),本科生,48学时

3、高等桥梁结构理论,硕士生,32学时

4、现代土木工程理论,博士生,8学时


主要学术兼职:

国际全寿命土木工程协会(IALCCE)会员

桥梁维护与安全国际联合会(IABMAS)会员

IABMAS-China Group 理事

中国土木工程学会桥梁与结构工程分会理事

中国土木工程学会工程数字化分会理事

中国公路学会桥梁与结构工程分会理事

中国复合材料学会土木工程复合材料分会理事

中国市政工程协会智慧城市道路与桥梁专业委员会委员

IABMAS2012年、IABMAS2014、IABMAS2020年大会国际学术委员会委员

天津市土木工程学会理事

国家自然科学基金、中国博士后科学基金评审专家

国内外三十多个核心期刊审稿人

《中国公路学报》编委等


主要学术成就、奖励及荣誉:

2022年中国公路学会科技进步特等奖(第5);

2022年江苏省科技进步一等奖(第2);

2021年华夏建设科技奖二等奖(第6);

2019年天津市中青年科技创新领军人才;

2019年天津大学教书育人先进工作者;

2017年天津大学“教工示范岗”;

2016年度天津市科技进步一等奖1项(第1);

2016年度项海帆杰出桥梁青年奖;

2014年天津市优秀硕士论文指导教师;

2013年天津大学北洋学者-青年骨干教师计划;

2012年度天津市科技进步三等奖1项(第1);

2011年天津大学本科毕业设计优秀指导教师;

2010年国家精品课程主讲教师;

2008年度天津市科技进步二等奖1项(第5);

2007年中国科协期刊优秀论文奖1项(第1)。


主要科研项目及角色:

★在研项目

1)国家自然科学基金面上项目:无基准状态桥梁基于控制行车激励的损伤检测与概率评估方法研究(52378310),2024.1-2027.12,负责人

2)国家自然科学基金面上项目:温湿循环影响下预应力钢筋混凝土桥梁长期性能多尺度分析方法研究(52078333),2021.1-2024.12,负责人

3)国家重点研发计划:综合交通与智能交通重点专项道路设施状态智能联网监测预警,2019-2022,子课题合作单位负责人

4)国家自然科学基金面上项目:面向结构健康监测的MIMO雷达微弱变形与振动测量理论与方法研究(61971037),2020.1-2023.12,合作单位负责人,

5)天津市交通运输委员会科技项目:基于磁致伸缩导波的桥梁缆索损伤识别研究(2022-G04),2022-2024,负责人

6)河北省交通运输厅科技项目:钢箱-混凝土组合曲线梁桥空间温度效应及其爬移机理与防治措施研究,2020-2023,负责人

7)大型桥梁施工监控、施工技术创新、健康监测等相关科技服务与开发项目多项(在研天津三座大型钢拱桥、四川一座大型钢拱桥、山东一座跨黄河公轨两用斜拉桥、广东高速公路全UHPC桥梁、鄂尔多斯大型光伏厂房等工程相关项目)。

★已完成项目

1)国家自然科学基金面上项目:公路桥梁多场耦合随机动态响应时空演变规律及分步损伤识别方法研究(51578370),2016.1-2019.12,负责人

2)天津市交通运输委员会科技项目:基于机器视觉的桥梁快速检测装备与诊断技术研究,2018-2020,负责人

3)天津市交通运输委员会科技项目:滨海地区装配式耐候钢-超高性能混凝土组合梁桥建造技术研究,2019-2021,负责人

4)天津市科技支撑计划重点项目:海洋气候下高性能耐候钢-混凝土组合梁桥绿色建造新技术研究(16ZCKFSF00308),2016.4-2019.3,负责人

5)天津市自然科学基金重点项目(京津冀合作专项项目):软土地区高铁桥轨系统环境温度效应与安全控制技术研究(16JCZDJC40300),2016.4-2019.3,负责人

6)天津市应用基础与前沿技术研究计划:公路桥梁的损伤动力学机制及其在线预警方法研究,2014.4-2017.3,负责人

7)天津市科技支撑计划重点项目:城市桥梁网络无线智能监测、预警与风险对策系统关键技术研究(11ZCKFSF00300),2011.4-2014.3,负责人

8)国家自然科学基金青年基金项目:钢筋混凝土结构疲劳累积损伤随机演化规律及其失效模拟研究(50708065),2008.1-2010.12,负责人

9)国家自然科学基金面上项目:滨海预应力混凝土桥梁腐蚀与疲劳耦合失效机理及其劣化过程分析方法研究(51178305),2012.1-2015.12,负责人

10)国家“863”计划重大交通基础设施核心技术专题课题:“基于疲劳和寿命的混凝土桥梁结构设计方法”(2007AA11Z133):2008.1-2010.12,子课题3“基于性能-寿命-成本优化的混凝土梁桥设计方法及系统开发”,负责人

11)教育部高校博士点科研基金项目:大型桥梁性能的综合评估与退化预测模型研究(20070056125),2008.1-2010.10,负责人

12)城市与工程安全减灾省部共建教育部重点实验室开放基金:基于希黄变换的桥梁损伤识别方法及其试验研究(ESS07001),2007.1-2007.12,负责人

13)天津大学自主创新基金(攻坚预研):滨海土木工程结构与安全基础研究,2010.1-2011.12,负责人

14)天津大学自主创新基金(产学研合作):波形钢腹板箱梁矮塔斜拉桥设计施工关键技术研究,2011.4-2011.12,负责人

15)天津大学自主创新基金(青年教师培养基金):基于压电智能监测技术的钢筋混凝土构件损伤识别与失效模拟,2008.1-2011.12,负责人

16)天津市道桥管理处委托项目:超期服役混凝土桥梁的剩余寿命及其评价方法研究,2014.3-2015.12,负责人

17)国家自然科学基金重大研究计划:强震作用下长大桥梁的灾变全过程及控制研究(90715032),2008.1-2011.12,主要参加人

18)国家自然科学基金重点项目:钢筋混凝土构件破坏机理与尺寸效应研究(50838001),2010.1-2013.12,子课题第二参加人

19)大型桥梁模型试验、施工监控、成桥试验、健康监测及长期性能评估等相关科技服务项目多项(服务范围遍及天津/河北/吉林/山东/内蒙古/广东等地;包括悬索桥、斜拉桥、拱桥和连续梁桥等各种桥型)。


代表性论文 / 论著及检索情况:

★ 获得国家发明专利14项。

★ 获得软件著作权6项。

★ 发表论文160余篇,被SCI/EI收录90余篇,近年来代表性论文如下:

93. Zhen Wang, Jinsong Zhu, Zhitian Zhang. Machine learning-based deep data mining and prediction of vortex-induced vibration of circular cylinders [J]. Ocean Engineering,285 (2023) 115313(SCI/EI)

92. Yanlei Wang, Jinsong Zhu, Yadan Sun. Multi-scale modeling and simulation of bidirectional coupled moisture and heat transfer in concrete [J]. Journal of Building Engineering, 74 (2023) 106856(SCI/EI)

91. Jinsong Zhu, Mohammed Al-samawi, Yibo Yang, Najm Addin Al-Shakhdha. An approach for simulating and evaluating the effect of sulfate attack on the durability of concrete bridges based on a three-dimensional cellular automata model [J]. Engineering Structures, 291 (2023) 116451(SCI/EI)

90. Fadel Yessoufou, Jinsong Zhu. Deep autoencoder model for direct monitoring of bridges subjected to a moving vehicle load under varying temperature conditions [J]. Structural Health Monitoring, 52 (2023) 752–767(SCI/EI)

89. Abdulwarith Ibrahim Bibi Farouk, Wei Rong, Jinsong Zhu. Compressive behavior of ultra-high-performance-normal strength concrete (UHPC-NSC) column with the longitudinal grooved contact surface [J]. Journal of Building Engineering, 68 (2023) 106074(SCI/EI)

88. Jinsong Zhu, Chi Zhang, Xingtian Li. Structural damage detection of the bridge under moving loads with the quasi-static displacement influence line from one sensor [J]. Measurement, 211 (2023) 112599(SCI/EI)

87. Fadel Yessoufou, Jinsong Zhu. Classification and regression-based convolutional neural network and long short-term memory configuration for bridge damage identification using long-term monitoring vibration data [J]. Structural Health Monitoring, https://doi.org/10.1177/14759217231161811(SCI/EI)

86. Jinsong Zhu, Cong Wang, Yibo Yang, Yanlei Wang. Hygro-thermal–mechanical coupling analysis for early shrinkage of cast in situ concrete slabs of composite beams: Theory and experiment [J]. Construction and Building Materials, 372 (2023) 130774(SCI/EI)

85. Jinsong Zhu, Abdulwarith Ibrahim Bibi Farouk. Development of hybrid models for shear resistance prediction of grouped stud connectors in concrete using improved metaheuristic optimization techniques [J]. Structures, 50 (2023) 286–302(SCI/EI)

84. Jingnan Ding, Jinsong Zhu, Teng Shi. Performance of grouped stud connectors in precast steel-UHPC composite bridges under combined shear and tension loads [J]. Engineering Structures, 277 (2023) 115470(SCI/EI)

83. Fadel Yessoufoua, Jinsong Zhu. One-Class Convolutional Neural Network (OC-CNN) Model for Rapid Bridge Damage Detection Using Bridge Response Data [J]. Structural Health Monitoring, DOI10.1007/s12205-023-0063-7(SCI/EI)

82. 朱劲松, 高天歌, 丁婧楠. 钢UHPC组合梁单钉连接件抗拔性能分析. 东南大学学报(自然科学版), 2023,53(1):44-52

81. Jinsong Zhu, Yanlei Wang, Rucheng Xiao, Junjie Yang, Jingnan Ding. Multiscale Theoretical Model of Thermal Conductivity of Concrete and the Mesoscale Simulation of Its Temperature Field [J]. Journal of Materials in Civil Engineering,https://doi.org/10.1061/(ASCE)MT.1943-5533.0004533(SCI/EI)

80. Yanlei Wang, Jinsong Zhu, Yongbin Guo, Cong Wang. Early shrinkage experiment of concrete and the development law of its temperature and humidity field in natural environment [J]. Journal of Building Engineering,63 (2023) 105528(SCI/EI)

79. Mohammed Al-samawi, Jinsong Zhu, Wei Rong. Application of 3D cellular automata-based analysis to chloride diffusion process in concrete bridges [J]. Structures, 47 (2023) 500–519(SCI/EI)

78. Yifeng Zhang, Jinsong Zhu. Damage Detection of Bridge Structures Under Vehicle Loads Using Moving-Window Correlation Coeffcient of Signals with Limited Sensors [J]. International Journal of Structural Stability and Dynamics, https://doi.org/10.1142/S021945542250105X(SCI/EI)

77. Jinsong Zhu, Xingtian Li, Chi Zhang. Fine‑grained identifcation of vehicle loads on bridges based on computer vision [J]. Journal of Civil Structural Health Monitoring,2022,https://doi.org/10.1007/s13349-022-00552-w(SCI/EI)

76. Jinsong Zhu, Xiuce Wang, Jingnan Ding, Cong Wang. Flexural Behavior of Steel-UHPC Composite Beams with Waffle Slabs under Hogging Moment [J]. Journal of Bridge Engineering,2022, 27(11): 04022100,https://doi.org/10.1061/(ASCE)BE.1943-5592.0001944(SCI/EI)

75. Jingnan Ding, Jinsong Zhu, Jingfu Kang. Bonding properties and mechanism of the interface between precast UHPC and post-cast UHPC [J]. Structures,43 (2022) 822–833(SCI/EI)

74. Jinsong Zhu, Xingtian Li. Cross-camera tracking of vehicle loads based on deep metric learning and edge computing [J]. Measurement 199 (2022) 111578. (SCI/EI)

73. Abdulwarith Ibrahim Bibi Farouk, Jinsong Zhu, Jingnan Ding, S.I.Haruna. Finite element analysis of the shear performance of box‑groove interface of ultra‑high‑performance concrete (UHPC)‑normal strength concrete (NSC) composite girder [J]. Construction and Building Materials 345 (2022) 128360(SCI/EI)

72. 朱劲松,秦亚婷,史腾. 预应力UHPC-NC组合梁抗弯承载力计算方法. 中南大学学报(自然科学版),2022,53(10): 3989-4000

71. Chi Zhang, Jinsong Zhu, Teng Shi, Xingtian Li. Influence line estimation of bridge based on Elastic Net and vehicle-induced response [J]. Measurement, 202 (2022) 111883(SCI/EI)

70. 史 腾,朱劲松,王子挺,秦亚婷. 基于并行计算和遗传算法的钢-UHPC 华夫板组合梁优化设计. 计算力学学报,2022: 1-10

69. Zhen Wang, Jinsong Zhu, Jiadong Zeng, Zhitian Zhang . Wind-Induced Asymmetry Torsional Divergence of Long Span Bridges: Mechanism, Three-Dimensional and Turbulence Effects [J]. International Journal of Structural Stability and  Dynamics, (2023) 2350042, https://doi.org/10.1142/S0219455423500426 (SCI/EI)

68. Abdulwarith Ibrahim Bibi Farouk, Jinsong Zhu,Gu Yuhui. Finite element analysis of the shear performance of box‑groove interface of ultra‑high‑performance concrete (UHPC)‑normal strength concrete (NSC) composite girder [J]. Innovative Infrastructure Solutions (2022) 7:212,https://doi.org/10.1007/s13369-021-06433-6(SCI/EI)

67. Jinsong Zhu, Jingnan Ding, Yongguang Wang. Numerical and theoretical studies on shear behavior of steel-UHPC composite beams with waffle slab [J]. Journal of Building Engineering, 47 (2022) 103913(SCI/EI)

66. Xin Chen, Jinsong Zhu, Yangzi Lin. Attenuation characteristics of low frequency longitudinal guided waves generated by magnetostrictive transducers in bridge cables [J]. Mechanical Systems and Signal Processing,164(2022)108296 (SCI/EI)

65. 朱劲松,王震阳,顾玉辉,李砚波,混凝土曲线箱梁桥的空间日照温度场, 长安大学学报(自然科学版)2022,42(4):42-51

64. 朱劲松, 秦亚婷, 刘周强. 预应力UHPC-NC组合梁截面优化设计. 吉林大学学报(工学版),2022:1-9

63. Jinsong Zhu, Qingling Meng, Teng Shi, Xiang Yang. Long-term deformation analysis of prestressed concrete bridges under ambient thermal and vehicle loads [J]. Structure and Infrastructure Engineering,2022, https://doi.org/10.1080/15732479.2022.2052909(SCI/EI)

62. Abdulwarith Ibrahim Bibi Farouk, Zhu Jinsong. Prediction of Interface Bond Strength Between Ultra-High-Performance Concrete (UHPC) and Normal Strength Concrete (NSC) Using a Machine Learning Approach [J]. Arabian Journal for Science and Engineering,2022,https://doi.org/10.1007/s13369-021-06433-6(SCI/EI)

61. 朱劲松, 李 欢. 基于深度学习的钢桥病害分割与量化. 东南大学学报(自然科学版),2021,52(3):516-522

60. Jinsong Zhu, Yanlei Wang. Feature Selection and Deep Learning for Deterioration Prediction of the Bridges [J]. J. Perform. Constr. Facil., 2021, 35(6): 04021078, https://doi.org/10.1061/(ASCE)CF.1943-5509.0001653(SCI/EI)

59. 陈 鑫,朱劲松,叶仲韬,伊建军. 悬索桥索夹螺杆轴力超声识别的影响因素分析及应用.工程科学与技术,2021,53(6):1-6

58. Yifeng Zhang, Jinsong Zhu. Damage identification for bridge structures based on correlation of the bridge dynamic responses under vehicle load [J]. Structures, 33 (2021) 68–7(SCI/EI)

57. Jinsong Zhu , Yanlei Wang. Convolutional neural networks for predicting creep and shrinkage of concrete [J]. Construction and Building Materials,306 (2021) 124868(SCI/EI)

56. Jingnan Ding, Jinsong Zhu, Jingfu Kang, Xiuce Wang. Experimental study on grouped stud shear connectors in precast steelUHPC composite bridge [J]. Engineering Structures,242 (2021) 112479(SCI/EI)

55. Jinsong Zhu, Xingtian Li, Chi Zhang, Teng Shi. An accurate approach for obtaining spatiotemporal information of vehicle loads on bridges based on 3D bounding box reconstruction with computer vision [J]. Measurement,181 (2021) 109657(SCI/EI)

54. 于丽娜,熊春宝,熊爱成,朱劲松,王 猛. 基于改进 CEEMDAN 分解的 GNSS-RTK 监测信号处理方法[J]. 天津大学学报(自然科学与工程技术版),2021,54(8):816-824

53. 陈 鑫,朱劲松,林阳子,官幼平. 基于导波多点散射的在役拱桥吊杆腐蚀损伤识别[J]. 振动与冲击,2021,40(19):295-301

52. 朱劲松,香超,祁海东. 考虑车桥耦合效应的大跨悬索桥钢-混组合梁疲劳损伤评估[J]. 振动与冲击,2021,40(5):18-229

51. 朱劲松, 王修策, 丁婧楠, 陈胜利. UHPC华夫桥面单向板的荷载有效分布宽度及抗弯承载力计算方法[J]. 东南大学学报(自然科学版),2021,51(3):404-410

50. 朱劲松,李 欢,王世芳. 基于卷积神经网络和迁移学习的钢桥病害识别[J].长安大学学报(自然科学版),2021,41(3):52-63

49. Jinsong Zhu, Xiaoyu Guo, Jingfu Kang, Menghao Duan, Yongguang Wang. Experimental Investigation of Flexural Behavior of Steel–UHPC Composite Beam with Waffle-Slab System [J]. J. Bridge Eng., 2021, 26(4): 04021011 https://doi.org/10.1061/(ASCE)BE.1943-5592.0001695(SCI/EI)

48. Jia-Bao Yan, Anzhen Chen, Jin-Song Zhu. Tests and analysis on circular UHPFRC-filled steel tubular stub columns under eccentric compression [J]. Journal of Constructional Steel Research, 178 (2021) 106501(SCI/EI)

47. Jiabao Yan, Anzhen Chen, Jinsong Zhu. Behaviours of square UHPFRC-filled steel tubular stub columns under eccentric compression [J]. Thin–Walled Structures,159(2021)107222(SCI/EI)

46.Jinsong Zhu , Ziyue Lu & Chi Zhang.A marker-free method for structural dynamic displacement measurement based on optical flow[J]. Structure and Infrastructure Engineering, 2020, https://doi.org/10.1080/15732479.2020.1835999(SCI/EI)

45.Jinsong Zhu, Xiaoyu Guo, Jingfu Kang, Menghao Duan, Yongguang Wang.Numerical and theoretical research on flexural behavior of steel-UHPC composite beam with waffle-slab system[J].Journal of Constructional Steel Research,171(2020)106141(SCI/EI)

44.Jinsong Zhu, Jinbo Song. Weakly supervised network based intelligent identification of cracks in asphalt concrete bridge deck[J]. Alexandria Engineering Journal,2020, https://doi.org/10.1016/j.aej.2020.02.027 (SCI/EI:20201108284543)

43.Jinsong Zhu and Jinbo Song. An Intelligent Classification Model for Surface Defects on Cement Concrete Bridges[J]. Applied Sciences, 2020, 10, 972; doi:10.3390/app10030972(SCI,EI:20200908214360)

42.Jinsong Zhu, Chi Zhang, Haidong Qi & Ziyue Lu.Vision-based defects detection for bridges using transfer learning and convolutional neuralnetworks[J]. Structure and Infrastructure Engineering,2020,https://doi.org/10.1080/15732479.2019.1680709(SCI-WOS:000498996800001;EI:20194907776519)

41.Jingnan Ding, Jingfu Kang, Jinsong Zhu and Xusheng Chen. Damage Detection of Epoxied Joint Model in Precast Concrete Segmental Bridges Using PZT Technology[J]. Journal of Aerospace Engineering, 2020, 33(3): 04020012 (SCI-WOS:000521113100007 /EI:20201208306716)

40.Xiaoyu Guo, Jinsong Zhu, Jingfu Kang, Menghao Duan, Yongguang Wang.Rust layer adhesion capability and corrosion behavior of weathering steel under tension during initial stage of simulated marine atmospheric corrosion[J]. Construction and Building Materials 234(2020)117393(SCI- WOS:000514748700031;EI:20194507621343)

39.Jin-Song Zhu, Yong-Guang Wang, Jia-Bao Yan,⁎, Xiao-Yu Guo.Shear behaviour of steel-UHPC composite beams in waffle bridge deck,Composite Structures,2020,234:111678( SCI-WOS:000505168700029;EI:20195007815271)

38.Guo Xiaoyu,Kang Jingfu,Zhu Jinsong*,Duan Menghao.Corrosion Behavior and Mechanical Property Degradation of Weathering Steel in Marine Atmosphere,Journal of Materials in Civil Engineering,2019,31(9): 04019181(SCI/EI)

37.朱劲松,郭晓栋,孟庆领.高速铁路桥—轨系统精细温度场分析,中国铁道科学,2019,40(4):36-45(EI)

36.朱劲松,孟庆领,祁海东,黄迪.大型沉井基础侧壁摩阻力分布特性,东南大学学报,2019,49(6):1136-1143(EI)

35.朱劲松,郭晓宇,亢景付,候华兴. 耐候桥梁钢腐蚀力学行为研究及其应用进展.中国公路学报,2019,32(5):1-16(EI)

34. 朱劲松,陈科旭,孟庆领.悬索桥太阳辐射效应的环境因素影响规律.哈尔滨工业大学学报,2019,51(3):127-134(EI)

33. 陈兴达,朱劲松.开裂钢筋混凝土梁的车致振动研究.太原理工大学学报,2019,50(3):279-286

32. 朱劲松,徐余锋.基于车桥耦合的三跨连续拱梁组合桥冲击系数研究铁道科学与工程学报,2019,16(4):959-967

31. 朱劲松,香超,祁海东.大跨度悬索桥冲击系数影响因素研究. 天津大学学报(自然科学与工程技术版),2019,52(4):413-421(EI)

30. Jia-Bao Yan, Xin Dong, Jin-Song Zhu*. Behaviours of stub steel tubular columns subjected to axial compression at low temperatures. Construction and Building Materials 228 (2019) 116788(SCI;EI)

29. Jia-Bao Yan, Xin Dong, Jin-Song Zhu*.Compressive behaviours of CFST stub columns at low temperatures relevant to the Arctic environment. Construction and Building Materials 223 (2019) 503–519(SCI;EI)

28. Jinsong Zhu* and Yifeng Zhang. Damage Detection in Bridge Structures under Moving Vehicle Loads Using Delay Vector Variance Method. J. Perform. Constr. Facil., 2019, 33(5): 04019049(SCI;EI)

27. Qingling Meng,Jinsong Zhu* and Tianlei Wang. Numerical Prediction of Long-Term Deformation for Prestressed Concrete Bridges under Random Heavy Traffic Loads. J. Bridge Eng., 2019, 24(11): 04019107(SCI;EI)

26.Guo XY,Kang JF,Zhu JS*. 3D Cellular Automata–Based Numerical Simulation of Atmospheric Corrosion Process on Weathering Steel, Journal of Material in Civil Engineering,ASCE,2018,30(11):04018296-01(SCI;EI)

25.Meng QL, Zhu JS*.Fine Temperature Effect Analysis–Based Time-Varying Dynamic Properties Evaluation of Long-Span Suspension Bridges in Natural Environments,JOURNAL OF BRIDGE ENGINEERING,ASCE,2018, 23(10): 04018075(SCI;EI)

24.Chunbao Xiong, Huali Lu and Jinsong Zhu*.Operational Modal Analysis of Bridge Structures with Data from GNSS/Accelerometer Measurements.Sensor,2017,DOI: 10.3390/s17030436(SCI;EI)

23.Zhu JS, Meng QL.Effective and Fine Analysis for Temperature Effect of Bridges in Natural Environments.JOURNAL OF BRIDGE ENGINEERING,ASCE,2017,22(6):04017017(SCI:ES6GS;EI)

22.Jin-song Zhu1*, Fa-min Huang, Tong Guo and Yun-he Song,RESIDUAL LIFE EVALUATION OF PRESTRESSED REINFORCED CONCRETE HIGHWAY BRIDGES UNDER COUPLED CORROSION-FATIGUE ACTIONS.Advanced Steel Construction,2015,11(3): 372-382 (SCI:CP5VP;EI)

21.Zhu JS, Cheng C, Han QH.Vehicle-bridge coupling vibration analysis based fatigue reliability prediction of prestressed concrete highway bridges.Structural Engineering and Mechanics, An International Journal,2014,49(2):203-223(SCI:AA2ZM;EI:20140717330163)

20.Jinsong Zhu, Qiang Yi. Bridge-vehicle coupled vibration response and static test data based damage identification of highway bridges. Structural Engineering and Mechanics, An International Journal, 2013,46(1):75-90 (SCI:230ED;EI: 20131516202696)

19.Zhu Jinsong,Liu Boqi.Performance-Life-Cost based Maintenance Strategies Optimization for Reinforced Concrete Girder Bridges.Journal of Bridge Engineering,ASCE,2013,18(2):172-178.(SCI: 111VB;EI: 20130716010550)

18.Jinsong Zhu,Likun He.Study on Piezoelectric Actuator/sensor Wave Propagation based Nondestructive Active Monitoring Method of Concrete Structures.Journal of Wuhan University of Technology(Materials Science),2011,26(3):541-547.(SCI: 778LL;EI:20114714528546)

17.Zhu Jinsong,He Likun.Cellular automata-based chloride ion diffusion simulation of concrete bridges under .multi-factor coupling actions.Journal of Wuhan University of Technology-Mater. Sci. Ed., 2012,17(1):160-165.(SCI: 897LV;EI:20122315101038)

16.Zhu Jinsong,Gao change, He Likun.Piezoelectric-based Crack Detection Techniques of Concrete Structures: Experimental Study.Journal of Wuhan University of Technology-Mater. Sci. Ed.,2012,27(2):346-352.(SCI: 921US;EI: 20122315101074)

15.朱劲松,肖汝诚.基于定期检测与遗传算法的大跨度斜拉桥损伤识别.土木工程学报,2006,39(5):85-89.(EI:064010141072)

14.朱劲松,肖汝诚.大跨度斜拉桥拉索安全性分析方法研究.土木工程学报,2006,39(9):69-74.(EI:064910289562)

13.朱劲松,肖汝诚, 何立志.大跨度斜拉桥智能可靠度评估方法.土木工程学报,2007,40(5):41-48.(EI:072710691937)

12.朱劲松,肖汝诚,曹一山.杭州湾跨海大桥索梁锚固节点模型试验研究.土木工程学报,2007,40(1):49-53.(EI:071510546960)

11.朱劲松,宋玉普.定侧压混凝土双轴等幅拉-压疲劳性能试验研究.建筑结构学报,2006,27(6):85-89.(EI: 070610415750)

10.朱劲松,李忠献,宋玉普.混凝土疲劳特性与疲劳损伤后等效单轴本构关系.建筑结构学报, 2006,27(suppl.)4-7.(EI:070410389631)

9.朱劲松, 闫广鹏.公路钢筋混凝土桥面板疲劳数值分析方法研究.中国公路学报,2012,25(1):59-66.(EI:20121114863250)

8.朱劲松,肖汝诚.大跨度PC斜拉桥结构快速分析的神经网络模型研究.中国铁道科学,2007,28(1):33-39.(EI:071510547089)

7.Zhu Jinsong, Xiao Rucheng, He Lizhi.Probability evaluation method for cable safety of long-span cable-stayed bridges. Journal of Southeast University (English Edition),2007,23(1):92-97.(EI:072110614289)

6.Zhu Jinsong,Gao Change.Probabilistic durability assessment approach of deteriorating RC bridges. Journal of Southeast University (English Edition), 2011,27(1):70-76.(EI:20111813953146)

5.朱劲松,王诗青.公路桥梁风险估测方法研究.哈尔滨工业大学学报,2012,44(2):124-128.(EI:20121514938211)

4.朱劲松,高嫦娥,肖汝诚.基于遗传算法的结构损伤识别及其程序设计.哈尔滨工业大学学报,2007,39(12):1952-1956.(EI:20080511071281)

3.朱劲松,邑强.中下承式拱桥吊杆应力冲击系数不均匀性研究.振动与冲击,2012,31(13):6-11.(EI: 20123615406287)

2.朱劲松,肖汝诚.结构可靠度分析的人工智能响应面法及其程序.哈尔滨工业大学学报,2009,41(4):169-173.(EI:11066028)

1.朱劲松, 朱先存.钢筋混凝土桥梁运营荷载下疲劳失效过程数值分析方法.工程力学, 2012,33(5):107-114.(EI:20122615178831)