Dr. Jiang Li is an assistant professor at Chongqing University. He received his B.Sc. in Civil Engineering from Lanzhou University, China in 2009, M.Sc. in Structural Engineering from Lanzhou University, China in 2012, and Ph.D. in Engineering Mechanics from Lanzhou University, China in 2016. He was a visiting scholar from July 2019 at Virginia Tech for one year guided by Prof. Mehdi Setareh. His work focuses specifically on the vibrational behavior of the large-span composite structures. He has experience in the analysis and design of various structures and more than 20 publications in technical journals and conference proceedings. (11/2020 updated)
Email:lijiangcqu@cqu.edu.cn
Education
Ph.D. in Engineering Mechanics (09/2012-06/2016), Lanzhou University, Supervisor: Prof. Xuhong Zhou
M.S. in Disaster Prevention and Mitigation Engineering (09/2009-06/2012), Lanzhou University, Supervisor: Prof. Xuhong Zhou
B.Sc. in Civil Engineering (09/2005-06/2009), Lanzhou University.
Career Details
10/2020-present Chongqing University, Assistant professor.
06/2019-07/2020 Virginia Tech, Visiting Scholar.
10/2016-10/2020 Chongqing University, Post-doctoral researcher.
Research interests
[1] Static and vibrational behavior of pre-stressed cable RC truss floor system (2009-present)
[2] Static and vibrational behavior of pre-stressed concrete composite slabs with inverted T-shaped ribbed panels (2017-present)
[3] Static and vibrational behavior of large span steel-concrete composite beam with precast hollow core slabs (2017-present)
[4] Vibrational serviceability evaluating using event-related potentials (ERP) (2018-present)
Research Projects
National Natural Science Foundation of China: Study on vibration serviceability of large span assembled monolithic system composed of composite frame and precast prestressed reinforced concrete hollow core floor slabs. 01/2018-12/2020. (¥ 0.25 million) (Grant No. 51708058)
Latest Publications
[1] Wenchen Shan, Jiepeng Liu, Jiang Li*, Huifeng Hu, and Y. Frank Chen. Characterization of damage on precast pre-stressed concrete composite slabs under static loading based on acoustic emission parameters. Structural Health Monitoring. 2020(5), 19(6), 2091-2106. (Q1, Impact Factor 4.870)
[2] Jiepeng Liu, Huifeng Hu, Jiang Li*, Y. Frank Chen, and Li Zhang. Flexural Behavior of Prestressed Concrete Composite Slab with Precast Inverted T-shaped Ribbed Panels. Engineering Structures. 2020(7), 215, 110687:1-13. (Q1, Impact Factor 3.548)
[3] Liang Cao, Jiang Li*, Xing Zheng, Y. Frank Chen. Vibration behavior of large span composite steel bar truss-reinforced concrete floor due to human activity. Steel and Composite Structures. (Accepted 10/24/2020) (Q1, Impact Factor 4.394)
[4] Jiang Li, Ruizhi Zhang, Jiepeng Liu*, Liang Cao, Y. Frank Chen. Determination of the natural frequencies of a prestressed cable RC truss floor system. Measurement. 2018(7), 122, 582-590. (Q1, Impact Factor 3.364)
[5] Jiepeng Liu, Huang Shu, Jiang Li*, and Y. Frank Chen. Vibration Behavior of Composite Slab with Precast Ribbed Panels due to Transient Impact. International Journal of Structural Stability and Dynamics. 2019(12): 1950148. (Q2, Impact Factor 2.015)
[6] Jiang Li, Jiepeng Liu*, Liang Cao, Y. Frank Chen. Vibration Behavior and Serviceability of Arched Prestressed Concrete Truss Due to Human Activity. International Journal of Structural Stability and Dynamics. 2018(6), 18(12). 1850146: 1-21. (Q2, Impact Factor 2.015)
[7] Liang Cao, Hongtuo Qi, and Jiang Li*. Experimental and numerical studies on the vibration serviceability of fanshaped prestressed concrete floor. International Journal of Distributed Sensor Networks. 2018(6), 14(8): 1-11. (Q4, Impact Factor 1.151)
[8] Xuhong Zhou, Jiang Li, Jiepeng Liu*. Vibration of Prestressed Cable RC Truss Floor System due to Human Activity. Journal of Structural Engineering (ASCE). 2016(3), 142(5), 04015170:1-10. (Q2, Impact Factor 2.454)
[9] Xuhong Zhou, Jiang Li, Jiepeng Liu*, Y. Frank Chen. Dynamic Performance Characteristics of Pre-Stressed Cable RC Truss Floor System under Human-Induced Loads. International Journal of Structural Stability and Dynamics. 2017(5), 17(4), 1750049: 1-20. (Q2, Impact Factor 2.015)
[10] Xuhong Zhou, Jiepeng Liu*, Jiang Li, Liang Cao. Vibration Behavior of Prestressed Cable Reinforced Concrete Truss System Caused by Jumping and Hopping. Journal of Performance of Constructed Facilities (ASCE). 2017(10), 31(5), 04017068: 1-12. (Q3, Impact Factor 1.648)
[11] Xuhong Zhou, Liang Cao, Y. Frank Chen, Jiepeng Liu*, Jiang Li. Experimental and analytical studies on the vibration serviceability of pre-stressed cable RC truss floor systems. Journal of Sound and Vibration. 2016(1), 361, 130-147. (Q1, Impact Factor 3.429)
[12] Xuhong Zhou, Liang Cao, Y. Frank Chen, Jiepeng Liu*, Jiang Li. Acceleration Response of Prestressed Cable RC Truss Floor System Subjected to Heel-Drop Loading. Journal of Performance of Constructed Facilities (ASCE). 2016(10), 30(5), 04016014: 1-8. (Q3, Impact Factor 1.648)
[13] Liang Cao, Jiepeng Liu*, Jiang Li, Ruizhi Zhang. Experimental and analytical studies on the vibration serviceability of long-span prestressed concrete floor. Earthquake Engineering and Engineering Vibration. 2018, 17(2), 417–428. (Q3, Impact Factor 1.642)
[14] Xuhong Zhou, Jiepeng Liu*, Liang Cao, Jiang Li. Vibration serviceability of pre-stressed concrete floor system under human activity. Structure and Infrastructure Engineering. 2016, 13(8), 967-977. (Q2, Impact Factor 2.62)
[15] Dan Gan*, Xuhong Zhou, Jiepeng Liu, Jiang Li. Seismic behavior of thin-walled circular and stiffened square steel tubed-reinforced-concrete columns. Science China -Technological Sciences. 2019, 62(3):511-20. (Q2, Impact Factor 2.302)
[16] Xuhong Zhou, Qingshan Yang, Jiang Li*, and Xiaoxue Ma. Human-induced vibration serviceability of arch pre-stressed concrete truss system. Journal of Measurements in Engineering. 2018(4), 6: 263-270. (International conference proceeding)
[17] Mehdi Setareh*, Jiang Li. Estimation of the dynamic properties of floors using heel drop tests, IABSE Congress – Resilient technologies for sustainable infrastructure. February 3-5, 2021, Christchurch, New Zealand. (International conference proceeding)
Awards
[1] Theory, Technology and Engineering Application of High-Rise Steel-Concrete Hybrid Structure, First Prize of National Scientific and Technological Progress Award, 2019 (Certificate Number:2019-J-22101-1-01-R13).
[2] Prefabricated Steel-Concrete Composite Structure Building and Its Information Construction Technology, First Prize of Scientific and Technological Progress Award in Chongqing, 2018 (Certificate Number:2018-J-1-14-R08).
[3] Key Technology of Analysis and Design of Large-Span Elaborate Building Structure, First Prize of Scientific and Technological Progress Award for Urban and Rural Construction in Heilongjiang, 2020 (Certificate Number:2019-03-03).
[4] Outstanding Communist Party Member of Chongqing University, 2019.