Wen Xiong (熊文)
PERSONAL INFORMATION
Wen Xiong, Ph.D., P.E., M. ASCE
Associate Professor, Research Advisor for Master Students
Department of Bridge Engineering, School of Transportation
Southeast University
Nanjing, Jiangsu 210096, China
Email: wxiong@seu.edu.cn; wxiong12@hotmail.com
RESEARCH INTERESTS
Bridge scour analysis, monitoring, and identification
Structural analysis and design theory for super-long-span bridges
Composite components and structures using FRP materials
Repair and strengthening theory for existing bridges
Bridge health monitoring and assessment
EDUCATIONAL BACKGROUND
2009 Ph.D. in Bridge Engineering, Department of Bridge Engineering, Tongji University, Shanghai, China, Advisor: Prof. Xiao Rucheng, Vice Advisor: Prof. Steve C.S. Cai
2004 Bachelor Degree in Civil Engineering, School of Civil Engineering, Tongji University, Shanghai, China
EMPLOYMENT HISTORY
2015.4-present, Associate Professor, Department of Bridge Engineering, School of Transportation, Southeast University
2011.8-2015.4, Assistant Professor, Department of Bridge Engineering, School of Transportation, Southeast University
2009.11-2011.8, Postdoctoral Researcher in Bridge Engineering, Department of Civil and Environmental Engineering, Louisiana State University, Baton Rouge, LA 70803, U.S.A.
COURSES INFORMATION
Undergraduate courses: Bridge Engineering, Long Span Bridges, Numerical Simulation in Bridge Engineering (Seminar), Finite Element Method and Numerical Simulation in Bridge Engineering, Bridge Design Using Computer Simulation, Bridge Introduction (English), Adanved Practice in Bridge Engineering
Master courses: High-Level Applications of Commercial Software in Bridge Engineering, Advanced Steel Structure for Bridges, Advanced Bridge Engineering (English).
Doctoral courses: Cable-Supported Bridges
MAJOR PROFESSIONAL COMMUNITY SERVICE
ASCE Member since 2013
Committee Member: International Conference on Sustainable Design, Engineering and Construction 2016, ASCE
Reviewers:Journal of Bridge Engineering, ASCE, Journal of Computing in Civil Engineering, ASCE, Journal of Hydraulic Engineering, ASCE, Journal of Hydro-environment Research, Engineering Structures, Advances in Structural Engineering, Journal of Intelligent Material Systems and Structures, Structural Engineering and Mechanics, Ain Shams Engineering Journal, etc.
P.E., Professional Engineer (Class 1 Registered Structural Engineer, China)
RESEACH PROJECTS as PI
[1] National Natural Science Foundation of China (2013-2015): Depth prediction and in-plane development trend of local scour at bridge substructures based on long-term monitoring, PI.
[2] Specialized Research Fund for the Doctoral Program of Higher Education (2013-2015): Dynamic performance and its optimization for the super-long-span cable-stayed bridges with CFRP-steel composite stay cables under wind-induced disaster, PI.
[3] Natural Science Foundation of Jiangsu Province of China (2012-2015): Mechanical performance and structural system for the kilometer-scale cable-stayed bridges with CFRP-steel composite stay cables, PI
[4] Natural Science Foundation of Jiangsu Province of China (2016-2019): Methodology and theory of the bridge scour identification based on the dynamic parameters, PI
[5] Research Project of Standard Revision of Ministry of Transport of the People’s Republic of China (Sub-project, 2017-2018): “Specification for Inspection and Evaluation of Load-bearing Capacity of Highway Bridges (Revision)”, PI.
[6] Research Project of Ministry of Transport of the People’s Republic of China (Sub-project, 2013-2016): Damage identification and safety warning for the substructures of bridges over strait, PI.
[7] Research Project of Ministry of Transport of the People’s Republic of China (Sub-project, 2013-2015): Crack control in the complicated stress field of mass concrete bridge tower, PI.
[8] Science Foundation for The Excellent Youth Scholars of Southeast University (2016-2018).
Other six research projects as PI funded by different provincial departments of transportation.
ACADEMIC PERFORMANCE
Selected Journal Paper
[1] Xiong, W., Kong, B., Tang, P. B., and Ye, J. S. (2018). “Vibration-Based Identification for the Presence of Scouring of Cable-Stayed Bridges.” Journal of Aerospace Engineering, ASCE, Online. (SCI/EI)
[2] Xiong, W., Cai, C. S., Kong, B., Tang, P., and Ye, J. S. (2018). “Identification of Bridge Scour Depth by Tracing Dynamic Behaviors of Superstructures.” KSCE Journal of Civil Engineering, Online. (SCI/EI)
[3] Xiong, W., Cai, C. S., Kong, B., Tang, P. B., and Ye, J. S. (2017). “Overturning-Collapse Modeling and Safety Assessment for Bridges Supported by Single-Column Piers.” Journal of Bridge Engineering, ASCE, 22(11), 04017084(1-13). (SCI/EI)
[4] Xiong, W., Tang, P. B., Kong, B., and Cai, C. S. (2017). “Computational Simulation of Live-Bed Bridge Scour Considering Suspended Sediment Loads.” Journal of Computing in Civil Engineering, ASCE, 31(5), 04017040(1-12). (SCI/EI)
[5] Xiong, W., Tang, P. B., Kong, B., and Cai, C. S. (2016). “Reliable Bridge Scour Simulation Using Eulerian Two-Phase Flow Theory.” Journal of Computing in Civil Engineering, ASCE, 2016, 30(5), 04016009(1-11). (SCI/EI)
[6] Xiong, W., Cai, C. S., Kong, B., and Kong, X. (2016). “CFD Simulations and Analyses for Bridge-Scour Development Using a Dynamic-Mesh Updating Technique.” Journal of Computing in Civil Engineering, 30(1), 04014121(1-11). (SCI/EI)
[7] Xiong, W., Cai, C. S., Ye, J. S., and Ma, Y. (2015). “Analytical Solution on Highway U-shape Bridges using Isotropic Plate Theory.” KSCE Journal of Civil Engineering, 19(6), 1852-1864. (SCI/EI)
[8] Xiong, W., Ye, J. S., Gai, X. M., and Cai, C. S. (2013) “Mechanical performance and design optimization of rib-stiffened super-wide bridge deck with twin box girders in concrete.” Structural Engineering and Mechanics, 48(3), 395-414. (SCI/EI)
[9] Xiong, W., Qinglin Wu, and Cai, C.S. (2013). “Mechanical and Thermal Performance of Coextruded Wood Plastic Composites for Structural Applications.” Advances in Structural Engineering, 16(5), 909-929. (SCI/EI)
[10] Xiong, W., Cai, C. S., Xiao, R. C., and Zhang, Y. (2012). “Design strategy of hybrid stay cable system using CFRP and steel materials.” Steel and composite structures, 13(1), 47-70. (SCI/EI)
[11] Xiong, W. and Cai, C.S. (2012). “Development of Fiber Optic Acoustic Emission Sensors for Applications in Civil Infrastructures.” Advances in Structural Engineering, 15(8), 1471-1486. (SCI/EI)
[12] Xiong, W., Tu, X., Xiao, R. C., and Cai, C. S. (2012). “A Stress-development Prediction Method and its Application to Stress Assessment of Existing Bridges.” Engineering Structures, 38(5), 113-122. (SCI/EI)
[13] Xiong, W., Cai, C. S., and Kong, X. (2012). “Instrumentation Design for Bridge Scour Monitoring Using Fiber Bragg Grating Sensors.” Applied Optics, 51(5), 547-557. (SCI/EI)
[14] Xiong, W., Cai, C. S., Xiao, R. C., and Deng, L. (2012). “Concept and analysis of stay cables with a CFRP and steel composite section.” KSCE Journal of Civil Engineering, 16(1), 107-117. (SCI/EI)
[15] Xiong, W., Cai, C. S., Zhang, Y., and Xiao, R. C. (2011). “Study of super long span cable-stayed bridges with CFRP components.” Engineering Structures. 33(2), 330-343. (SCI/EI)
[16] Xiong, W., Xiao, R.C., Deng, L., and Cai, C.S. (2010). “Methodology of long-term real-time condition assessment for existing cable-stayed bridges.” Advances in Structural Engineering. 13(1), 111-125. (SCI/EI)
[17] Huang, R. Z., Xiong, W., Xu, X. W., and Wu, Q. L.. (2012). “Thermal Expansion Behavior of Co-extruded Wood-plastic Composites with Glass-fiber Reinforced Shells.” BioResources, 7(4), 5514-5526. (SCI/EI)
[18] Kong, X., Cai, C. S., Hu, J. X.,Xiong, W., Peng, H. (2016). “Field Application of an Innovative Bridge Scour Monitoring System with Fiber Bragg Grating Sensors.” Journal of Aerospace Engineering, 30(2), B4016008. (SCI/EI)
Book Chapters
Xiong, W., Cai, C. S., and Xiao, R. C. (2014). “Advanced Composites in Bridge Construction and Repair, Chapter 8-The Use of Carbon Fiber Reinforced Polymer (CFRP) Composites for Cable-stayed Bridges.” Edited by Yail J. Kim, pp 210-264, Woodhead Publishing, ISBN: 978-0-85709-694-4, 2014.
PATENTS of INVENTION
Seven patents of invention have been authorized all as the first applicant.
(更新日期:2018.8)