Research Fields:
Prevention and Control of Concrete Crack;
Repair and reinforcement;
Multi-scale Simulation of Concrete;
High-performance concrete
Current Courses:
《Concrete》《Concrete repair》《Modeling and analysis for the material system》
Projects:
1) National Natural Science Foundation of China - Self-dissolving and self-repairing mechanism of minerals in underground concrete cracks and its multi-scale Effects (51878496)
2) Sub-project of National Key Special fund- The design and preparation of High-Impedance Ultra-High-Performance Concrete (2018YFC0705403-4)
3) Fund of NSFC - The interface performance and microscopic model of using electrochemical deposition as a repair method for concrete in underground structure (51508404)
Publications:
1) Jiang, Z.W., Yang, X.J., Yan, Z.G., Chen, Q. *, Zhu, H.H., Wang, C.H., Ju, J.W., Fang, Z.H., Li, H.X.: A stochastic micromechanical model for hybrid fiber-reinforced concrete. Cement and Concrete Composites. 102: 39-54 (2019).
2)Qing Chen, Hehua Zhu, J. Woody Ju, Zhiguo Yan, Jiang Zhengwu, Bo Chen*, Yaqiong Wang, Zhihong Fan. Stochastic micromechanical predictions for the probabilistic behavior of saturated concrete repaired by the electrochemical deposition method. International Journal of Damage Mechanics. Doi: 10.1177/1056789519860805(2019).
3)Qing Chen*, Hehua Zhu, J. Woody Ju, Zhiguo Yan, Changhong Wang*, Zhengwu Jiang*, A stochastic micromechanical model for fiber-reinforced concrete using maximum entropy principle, Acta Mechanica ,2018, 229(7): 2719-2735.
4)Qing Chen, Zhengwu Jiang*, Hehua Zhu, J Woody Ju, Zhiguo Yan, Haoxin Li, The effective properties of saturated concrete healed by EDM with the ITZs. Computers and Concrete, 2018, 21(1): 67-74.
5)Qing Chen, Zhengwu Jiang*, Hehua Zhu, J Woody Ju, Zhiguo Yan, Haoxin Li, Timon Rabczuk. A multiphase micromechanical model for unsaturated concrete repaired by electrochemical deposition method with the bonding effects, International Journal of Damage Mechanics, 2018, 27(9): 1307-1324.
6)Chen Q, Zhu HH*, Ju JW, Jiang ZW, Yan ZG, Li HX. Stochastic micromechanical predictions for the effective properties of concrete considering the interfacial transition zone effects. International Journal of Damage Mechanics, 2018,27(8): 1252-1271.
7)Chen Q, Jiang ZW*, Yang ZH, Zhu HH, Ju JW, Yan ZG, Wang YQ. Differential-scheme based micromechanical framework for unsaturated concrete repaired by the electrochemical deposition method. Acta Mechanica, 2017, 228: 415-431.
8)Chen Q, Jiang ZW*, Zhu HH, Ju JW, Yan ZG. Micromechanical framework for saturated concrete repaired by the electrochemical deposition method with interfacial transition zone effects. International Journal of Damage Mechanics,2017, 26(2): 210-228.
9)Qing Chen, Hehua Zhu. The Stochastic Micromechanical Models of The Multiphase MaterialS and Application in Elect rochemical Deposition Method. Tongji University Press, 2018.