JIANG Jiwang

Ph. D., Associate Professor

Department of Highway & Railway Engineering, School of Transportation, Southeast University

E-mail: jiang_jiwang@seu.edu.cn

Google scholar Homepage: https://scholar.google.com/citations?user=UMZHXSsAAAAJ

RG homepage: https://www.researchgate.net/profile/Jiwang-Jiang

EDUCATION

Ph.D. in School of Transportation

Southeast University, Nanjing, China, 09/2014-06/2019

Visiting Scholar. in Civil and Environmental Engineering

University of Wisconsin-Madison, Madison, WI, USA, 09/2017-09/2018

B.S. in Highway & Railway Engineering

Southeast University, Nanjing, China, 09/2010-06/2014

ACADEMIC POSITIONS

Associate Professor

School of Transportation, Southeast University, China, 09/2022-present

Post-doctoral Research Fellow

Department of Civil & Environmental Engineering, The Hong Kong Polytechnic University, HK, 08/2019-08/2022

ABOUT

Jiwang Jiang’s main research interests include multi-scale characterization and modeling for road pavement, sustainable and functional road materials, and intelligent management technologies for transportation infrastructure. He has published over 100 academic papers with more than 80 indexed by SCI, and obtained 15 authorized invention patents. He has undertaken or participated in over 10 research projects supported by various funding sources such as the National Natural Science Foundation of China, the Hong Kong Research Grants Council, Wis-DOT, and the Jiangsu Provincial Department of Transportation. He has served as the Deputy Secretary-General of the Road and Track Committee of the Jiangsu Engineering Society, academic members of the International Association of Chinese Infrastructure Professionals (IACIP), the International Union of Materials and Structural Research Laboratories (RILEM), and the Academic Committee of the Association of Pavement Science and Engineering (APSE). Also, serving as a young editorial board member for the Journal of Traffic and Transportation Engineering, Journal of Road Engineering, Fluid Dynamics & Materials Processing, and Municipal Technology, and as a high-quality peer reviewer for more than 30 SCI-indexed academic journals.

RESEARCH INTERESTS

• Sustainable Pavement Materials and Technologies

• Intelligent Pavement Preservation, Maintenance and Rehabilitation

• Multiscale Characterization and Modelling of Asphalt Pavement

• Digital Image Processing and Machine Learning

RESEARCH/CONSULTANCY EXPERIENCE

• Youth Program of National Natural Science Foundation of China, Moisture Gradient Migration, Micro-structure Development and Cracking Behavior of the Bitumen Emulsion Cold Recycling Mixtures

• PolyU Postdoctoral Fellowship Scheme 2019, Multi-scale fatigue performance characterization of asphalt mixtures based on image analysis

• Hong Kong Research Grant Council, Multiscale Characterization of the Short-term and Long-term Interaction between Surface-treatment Emulsion and Porous Asphalt (PA) Mixture towards More Durable PA Road Surfaces

• Wisc-DOT (WHRP 17-04), Field Aging and Moisture Sensitivity Study

• National Natural Science Foundation of China, Study on the adaptability of resin-based steel bridge deck pavement system based on curing shrinkage effects.

• Jiangsu Department of Transportation, Research on Intelligent Maintenance and Long-term Preservation Technology of Highway Pavement.

SELECTED PUBLICATIONS

1. Cao, R., Li, H., Yao, L., Jiang, J., Leng, Z., Ni, F., & Zhao, Z. (2024). Comparative analysis of cold in-place recycling for roadway maintenance and rehabilitation from the perspectives of technical-cost-environmental nexus. Journal of Cleaner Production, 140768.

2. Jiang, J., Wang, J., Zhao, Z., Ni, F., Xu, D., Zhang, Z., & Leng, Z. (2023). Drying behavior modeling of bitumen emulsion-based cold in-place recycling pavement considering heat-moisture coupling effects. Journal of Cleaner Production, 429, 139634.

3. Zhao, Z., Jiang, J., Leng, Z., & Ni, F. (2023). Micropore structure characterization of the bitumen emulsion-based cold in-place recycling mixture considering water gradient migration condition through multiple XCT scanning. Construction and Building Materials, 403, 133084.

4. Jiang, J., Xu, D., Yu, S., & Ni, F. (2023). Micro-structural characterization of the lubrication behavior of asphalt binder during the compaction of asphalt mixture. Tribology International, 189, 108953.

5. Ding, J., Jiang, J., Han, Y., Ni, F., Ma, X., & Chen, S. (2023). Chemical and rheological characterization of in-situ SBS modified asphalt pavement considering the effect of aging gradient. International Journal of Pavement Engineering, 24(2), 2099856.

6. Li, D., Leng, Z., Zhang, S., Jiang, J., Yu, H., Wellner, F., & Leischner, S. (2022). Blending efficiency of reclaimed asphalt rubber pavement mixture and its correlation with cracking resistance. Resources, Conservation and Recycling, 185, 106506.

7. Jiang, J., Leng, Z., Yang, B., Lu, G., Tan, Z., Han, M., & Dong, Z. (2022). Penetration mechanism of the emulsion-based rejuvenator in damaged porous asphalt mixture: Microstructure characterization and 3D reconstruction. Materials & Design, 221, 111014.

8. Yao, L., Leng, Z., Jiang, J., & Ni, F. (2022). Large-scale maintenance and rehabilitation optimization for multi-lane highway asphalt pavement: a reinforcement learning approach. IEEE Transactions on Intelligent Transportation Systems, 23(11), 22094-22105.

9. Zhao, Z., Jiang, J., Chen, Z., & Ni, F. (2022). Moisture migration of bitumen emulsion-based cold in-place recycling pavement after compaction: Real-time field measurement and laboratory investigation. Journal of Cleaner Production, 132213.

10. Yao, L., Dong, Q., Jiang, J., & Ni, F. (2020). Deep reinforcement learning for long‐term pavement maintenance planning. Computer‐Aided Civil and Infrastructure Engineering, 35(11), 1230-1245.