WU Liang
Associate Professor
Dept. of Engineering Mechanics
E-MAIL: wuliang@wust.edu.cn
Educational Background
2002--2007, Wuhan University, School of Water Resources and Hydropower Engineering,Doctor.
1998--2002, Wuhan University, Institute of Water Conservancy and Hydro-Electric Power,Bachelor.
Work Experience
2011--Present, Associate Professor, College of Science, Wuhan University of Science and Technology.
2017--2018, Visiting scholar, University of Western Australia.
2007--2011, Lecturer, College of Science, Wuhan University of Science and Technology.
Research Field
Main research field is Engineering Mechanics, such as:
1: the safety and damage of rock Mass under blasting.
2: the safety and damage of buildings under dynamic loading.
3: Development and Application of Peridynamics in blasting Engineering.
4: the Coupling of Fluent and Engineering Discrete Element Method in blasting Engineering.
Academic Achievements
1. Wu, L.; Liang, Z.; Chen, M. Experiments and simulation of block motion in underwater bench blasting[J]. Scientific Reports,2023,13:4703.
2. Wu, L.; Liang, Z.; Chen, M.;Zhou, J. Experiments and Fluent–Engineering Discrete Element Method-Based Numerical Analysis of Block Motion in Underwater Rock-Plug Blasting. Appl. Sci. 2023,13, 348.
3. WU Liang, LIANG Zhijian, ZHANG Ao, CHEN Ming. The blasting pile formation process of rock mass bench blasting under water based on fluid solid coupling model of fluent and edem[C], 13# Intertnational Symposium on rock fragmentation by blasting, 2022,Hangzhou China,P539-547.
4. Liang Wu, Xiaorui Xiang, Yang Chen,et al. Modeling and Simulation of Dynamic Unloading of Prestressed Rockmass[J]. Computer Modeling in Engineering & Sciences, vol.120, no.2, pp.421-443, 2019.
5. CHEN Yang, WU Liang*, CHEN Ming et al. Characteristics of Strain Rate and Strain Energy During Blasting Unloading of High Stress Rock Mass[J]. Explosion and Shock Waves: ,2019,39(10):60-70.
6. WU Liang,LI Feng,LU Wenbo, et al.Theoretical study of vibration velocity threshold of tunnel surrounding rock under Blasting Loads[J]. Explosion and Shock Waves, 2017, 37(2):208-214.
7. CHEN Yang, WU Liang*, XU Feng, et al. Dynamic Response of Existing Large Oil Storage Tank Under Blasting Excavation Vibration[J]. Explosion and Shock Waves, 2018, 38(6):1394-1403
8. CHEN Yang,WU Liang*, ZENG Guowei, et al. Numerical analysis of the water entry process of a projectile with a circular[J]. Explosion and Shock Waves,2018,38(5):1155-1164.
9. WU liang,XIE Xianqi,HAN Chuanwei, et al. Numerical Simulation and Practice of Hydraulic Demolition Blasting of Viaduct Box Girder[J]. Journal of Highway and Transportation Research and Development, 2016,33(3):64-70.
10. WU Liang,LI Feng,CHEN Jindong, et al. Safety Vibration Velocity of Key Block in Tunnel Surrounding Rock under Blasting Loads[J]. METAL MINE,2016,478(4):47-51.
11. WU Liang,LU Shuai,XU Feng, et al. Research Trends about the Mechanism of Ore Rock Blasting Fragmentation,the Distribution of Block Size and Measurement Technique[J]. METAL MINE, 2016,481(7):47-53.
12. WU Liang, LI Feng, ZENG Guowei, et al. Test for the Response of Surrounding Rock of Existing Highway Tunnel under Blasting Load[J]. HIGHWAY, 2016:61(11):244-248.
13. WU Liang,XU Feng,LI Feng, et al. Study on Vibration Law on Slope Produced by Air-decking Blasting[J].BLASTING, 2016:33(3),31-35.
14. Wu Liang, Jin Mu, Li Leibin,et al. Influence of Slope Excavation of Open Pit Mine on the Existing Tunnel[J]. METAL MINE, 2015,467(5):7-11.
15. LI Feng, WU Liang*, XU Feng, et al. Perturbation Analysis of Hole and Adjacent Tunnel Surrounding Rock Induced by Schist Tunnel Blasting[J]. BLASTING, 2015:32(3),123-127.
16. ZHENG Bingxu, WU Liang*, SONG Jinquan, et al. Empirical Formula of Air-decking Ratio in Air-decking Pre-splitting Blasting[J].ENGINEERING BLASTING, 2014,20(5):8-12.
17. ZHONGDongwang,WU Liang,YU Gang. Study on Effect of Tunneling Blasting on Existing Adjacent Tunnel [J]. Materials Research Innovations,2011,(s1):p513-516.
18. ZHONG Dongwang, WU Liang, YU Gang, et al. Effect of tunneling blasting on existing adjacent tunnel[J]. Explosion and Shock Waves, 2010,30(5):456-462.
19. WU Liang, LU Wenbo, ZHONG Dongwang, et al. Blasting mechanism of air-decked charge in concrete medium[J]. Explosion and Shock Waves, 2010,30(1):58-64.
20. Hubei Province Science and Technology Progress Second Prize, Key Technologies and Engineering Applications for Blasting Construction of Small Distance Tunnels, 2010.
21. Hubei Province Science and Technology Progress Second Prize, Key technologies and engineering applications for blasting demolition of super large high-rise structures, 2012.
22. Hubei Province Science and Technology Progress Second Prize, Key technologies and applications for the development of 200m level water medium explosion containers, 2014.
23. Comparison method of vertical and axial crack propagation efficiency in rock blasting, Invention Patent, ZL 202010843190.9
24. An experimental method for simulating the impact of blasting demolition of deep foundation pit support beams on retaining structures, Invention Patent, ZL 201910351505.5
25. A method and system for numerical separation of blasting impact and transient unloading loads, Invention Patent, ZL201711239920.9
26. A load experimental separation method for blasting impact and transient unloading, Invention Patent, ZL 201711365793.7
27. A blasting control method for collaborative blasting construction of slopes and adjacent tunnels, Invention Patent, ZL 201510023750.5
28. A monitoring method applicable to the movement of soft medium blasting bulges and chambers, Invention Patent, ZL 201510341385.2
29. A protective observation window for blasting experiments, Invention Patent, ZL 201510298565.7
