个人简历

北航交通学院教授、博士生导师。2010年于美国佐治亚理工学院获得博士学位，2011年入选北航“卓越百人”计划，长期从事超声损伤检测和交通基础设施健康监测领域研究工作，主持（完成）国家自然科学基金、国防科技项目、重点研发计划项目子题、973计划项目子题等纵向课题10余项。已经发表本领域SCI论文28篇，其中第一/通讯作者SCI论文22篇，获批国家发明专利1项，申报国家发明专利2项。获得美国土木工程师学会（ASCE）2019年度 Thomas Fitch Rowland奖，Materials and Structures期刊2018年杰出论文奖，北美波特兰水泥学会（Portland Cement Association）基金奖励和美国混凝土学会（American Concrete Institute）2008年度ACI-James Instruments 最佳论文奖，研究成果曾被Portland Cement Association Newsletter, Georgia Concrete and Masonry News和 Transportation Research Board等相关学术媒体、刊物和机构战略报告所报道介绍。担任中国振动学会结构抗振控制与健康监测青年委员会委员，国际光学工程学会SPIE年会SHM-NDE of Civil Structures/Infrastructure IV分会场主席，Structural Health Monitoring, Journal of Applied Physics, Construction and Building Materials, Journal of Nondestructive Evaluation等近十个SCI期刊审稿人。

教育经历

[1] 华中科技大学 | 土木工程 | Bachelor's Degree | 大学本科毕业
[2] 新加坡国立大学 | 机械工程 | Master's Degree | 硕士研究生毕业
[3] 佐治亚理工学院 | 土木工程 | 博士学位 | 博士研究生毕业

工作经历

[1] 2011.6-至今
北京航空航天大学 |交通科学与工程学院 |副教授/教授

[2] 2012.6-2018.9
北京航空航天大学 |交通学院 |院长助理/系主任

社会兼职

[1]中国振动学会结构抗振控制与健康监测青年委员会委员

研究方向

[1] 交通基础设施状态智能感知与健康监测，先进材料的超声无损检测

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研究领域

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交通基础设施状态智能感知与健康监测，先进材料的超声无损检测

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开授课程

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[1]土木工程综合实验
[2]建筑结构健康诊治
[3]木结构
[4]土木工程概论

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科研项目

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[1] 道路基础设施智能感知理论与方法 国家重点研发项目子题
[2] 基于考虑驻波效应瑞利波二次谐波技术的混凝土微裂缝非接触式检测与评估 国家自然科学基金
[3] 移动荷载和冻融循环作用下机场道面损伤检测非线性超声评价 北京市自然科学基金项目
[4] 机场高填方长期变形规律及优化设计方法研究 国家重点基础研究发展计划（973）项目子课题
[5] 基于超声二次谐波理论的混凝土无损检测研究 国家自然科学基金项目

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论文

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[1] (27)H. Li, J.Q. Cheng, T.Y. Ng, Jun Chen, and K.Y. Lam, A meshless Hermite-Cloud method for nonlinear fluid-structure analysis of near-bed submarine pipelines under current, Engineering Structures, 26(2004), pp. 531-542.
[2] (26)H. Li, Y, Zhen, K.Y. Lam, H.P. Lee, Jun Chen, J, Hanes, and J, Fu, Model development and numerical simulation of electric-stimulus-responsive hydrogels subject to an externally applied electric field, Biosensors & Bioelectronics, 19(2004), pp. 1097-1107.
[3] (25)H. Li, Jun Chen, and K.Y. Lam, Multiphysic modeling and meshless simulation of electric-sensitive hydrogels, Journal of Polymer Science Part B: Physics Edition, 42(2004), pp. 1514-1531.
[4] (24)Jun Chen, H. Li, and K.Y. Lam, Transient simulation for kinetic responsive behaviors of electric-sensitive hydrogels, Material Science and Engineering C, 25(2005), pp. 710-712.
[5] (23)Jun Chen, and G.W. Ma, Modeling deformation behavior of polyelectrolyte gels under chemo-electro-mechanical coupling effects. International Journal of Numerical Methods in Engineering 68(2006), pp. 1052-1071.
[6] (22)H. Li, Jun Chen, and K. Y. Lam, A transient simulation to predict the kinetic behavior of hydrogels responsive to electric stimulus, Biomacromolecules, 7(2006), pp. 1951-1959.
[7] (21)H. Li, Jun Chen, and K.Y. Lam, Transient simulation of kinetics of electric-sensitive hydrogels, Biosensors & Bioelectronics, 22(2007), pp. 1633-1641.
[8] (20)Jun Chen, A. Jayapalan, J.-Y. Kim, K.E. Kurtis, and L.J. Jacobs, Nonlinear wave modulation spectroscopy method for ultra-accelerated alkali-silica reaction assessment, ACI Materials Journal, 106 (2009), pp. 340-348.
[9] (19)Jun Chen, A. Jayapalan, J.-Y. Kim, K.E. Kurtis, and L.J. Jacobs, Rapid evaluation of alkali-silica reactivity of aggregates using a nonlinear resonance spectroscopy technique, Cement and Concrete Research 40(2010), pp. 914-923.
[10] (18)Jun Chen, J.-Y. Kim, K.E. Kurtis, and L.J. Jacobs, Theoretical and experimental study of the nonlinear resonance vibration of cementitious materials with an application to damage characterization, Journal of the Acoustical Society of America 130(2011), pp. 2728-2737.
[11] (17)Jun Chen，Zheng Xu, Yue Yu, Yangping Yao，Experimental characterization of granite damage using nonlinear ultrasonic techniques. NDT & E International, 2014, 67:10-16.
[12] (16)Jun Chen，Liang Zhang, Experimental study of effects of water–cement ratio and curing time on nonlinear resonance of concrete. Materials and Structures, 2015, 48:423-433.
[13] (15)WY Zhao, QQ Guo, ZY Huang, L Tan, Jun Chen, YH Ye. Hysteretic model for steel-concrete composite shear walls subjected to in-plane cyclic loading. Engineering Structures, 2016, 106:461-470.
[14] (14)Jun Chen, Jun Ren, Tingyuan Yin，Nondestructive evaluation of notched cracks in mortars by nonlinear ultrasonic technique. Nondestructive Testing and Evaluation, 2016, 31:109-121.
[15] (13)Jun Chen, Hao Wang, Yangping Yao, Experimental study of nonlinear ultrasonic behavior of soil materials during the compaction. Ultrasonics, 2016, 69:19-24.
[16] (12)Jun Chen, Rendy Bharata, Tingyuan Yin, Qingdong Wang, Hao Wang, Taotao Zhang. Assessment of sulfate attack and freeze-thaw cycle damage of cement-based materials by a nonlinear acoustic technique. Materials and Structures, 2017, 50: 105.
[17] (11)Jun Chen, Tingyuan Yin, Jin-Yeon Kim, Zheng Xu, Yangping Yao. Characterization of thermal damage in sandstone using the second harmonic generation of standing waves. International Journal of Rock Mechanics and Mining Science, 2017, 91: 81-89.
[18] (10)TT Zhang, YC Liao, KF Zhang, Jun Chen*. Theoretical analysis of the dynamic properties of a 2-2 cement-based piezoelectric dual-layer stacked sensor under impact load. Sensors, 2017, 17(5), 1019.
[19] (9)YP Yao, YZ Ruan, Jun Chen*, Y Geng, X Zhang, BY Liu, XP Zhao, GZ Yu. Research on a Real-Time Monitoring Platform for Compaction of High Embankment in Airport Engineering. Journal of Construction Engineering and Management, 2018, 144(1): **.
[20] (8)Jun Chen, Yuning Wu, Tinyuan Yin, Neda Talebzadeh, Quanquan Guo. Characterization of concentrated and distributed cracks in concrete using a harmonic wave modulation technique. Materials and Structures, 2018, 51:1.

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荣誉及奖励

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