| Education |
Ph.D., Geotechnical Engineering, University of Chinese Academy of Sciences, Wuhan, China, 1990 M.Eng. Geotechnical Engineering, University of Chinese Academy of Sciences, Wuhan, China, 1990 B.Eng. Mining Engineering, Wuhan University of Science and Technology, Wuhan, China, 1984 |
| Work Experience |
1997- , Professor, Wuhan University of Technology 2006-2007: Visiting scholar, University of Minnesota, Minnesota, USA 1983-1984: Technician, Pinggui Mining Bureau, Guangxi, China |
| Research Interests |
(1) Mechanics of jointed rock mass, deformation analysis and stability evaluation of large underground caverns and slopes; (2) Deformation Monitoring and forecasting theory and technology in geotechnical engineering; (3) Geotechnical reinforcement and governance theory and technology; (4) Controlled blasting and blasting effect analysis; (5) Engineering safety and protection. |
| Major Publications |
[1] Mingnan Xu, Xinping Li , Tingting Liu*, et al. A study on hollow effect and safety design of deep crossing caverns under blasting vibration[J]. Tunnelling and Underground Space Technology incorporating Trenchless Technology Research,2021,111.(SCI). [2] XinPing Li, JunLin Lv, Yi Luo*,et al. Mechanism Study on Elevation Effect of Blast Wave Propagation in High Side Wall of Deep Underground Powerhouse[J]. Shock and Vibration, 2018, 2018:1-15. (SCI). [3] XinPing Li, Dengxing Qu, Yi Luo*, et al. Damage evolution model of sandstone under coupled chemical solution and freeze-thaw process. Cold Regions Science and Technology. 2019; 162:88-95. (SCI) [4] XinPing Li, JunHong Huang, Yi Luo, Ping Ping Chen. A study of smooth wall blasting fracture mechanisms using the Timing Sequence Control Method. International Journal of Rock Mechanics and Mining Sciences,2017(92):1~8(SCI) [5] XinPing Li, JunHong Huang, Yi Luo, Qian Dong, YouHua Li, Yong Wan, TingTing Liu. Numerical simulation of blast vibration and crack forming effect of rock-anchored beam excavation in deep underground caverns. Shock and Vibration(SCI) [6] XinPing Li, JunLin Lv, JunHong Huang*, et al. Numerical Simulation Research of Smooth Wall Blasting Using the Timing Sequence Control Method under Different Primary Blast Hole Shapes, Shock and Vibration, 2019, 2425904: 1-16. [7] Tingting Liu,Xinping Li,Yun Zheng,Fei Meng,Dongri Song. Analysis of Seismic Waves Propagating through an In Situ Stressed Rock Mass Using a Nonlinear Model[J]. International Journal of Geomechanics,2020,20(3). [8] XinPing Li, Qian Dong, TingTing Liu, Yi Luo, Hang Zhao, JunHong Huang. Model test on propagation of blasting stress wave in jointed rock mass under different in-situ stresses. Chinese Journal of Rock Mechanics and Engineering, 2016(11):2188~2196(EI)(in Chinese) [9] XinPing Li, Hang Zhao, Yi Luo, ZuGang Cheng, ChangZhong Sun, Qian Dong, YePeng Yang. Experimental study of propagation and attenuation of elastic wave in deep rock mass with joints. Chinese Journal of Rock Mechanics and Engineering,201534(11):2319~2326(EI)(in Chinese) [10] XinPing Li, Qian Dong, TingTing Liu, JunHong Huang. Research on propagation law of cylindrical stress wave in jointed rock mass under in-situ stress[J]. Chinese Journal of Rock Mechanics and Engineering ,2018,37(S1):3121-3131. (EI).(in Chinese) [11] XinPing Li, Xing Bian, Yi Luo, JunLin Lv, GaoFeng Ren. Study on attenuation law of blasting vibration propagation of side wall of underground cavern[J]. Rock and SoilMechanics,2020, 41(06):2063-2069. (EI)(in Chinese) [12] XinPing Li, KaiWen Song, Yi Luo, JunHong Huang, JiXue Zhou, WenHao Dun. Study on Influence of High In-situ Stress on Cut Blasting and Blast Waves.BLASTING,2019,36(02):13-18+53.(in Chinese) |
| Honors and Social Service |
Honors (1) Theory and key technology of blasting control for deep buried cavern groups in super hydropower stations, First-class Prize of Scientific and Technology Progress of Hubei province, 2018, ranked No.1.
Social Service (3) Fundamental theory and key technology of deep underground *** engineering construction, First-Class Prize of National Scientific and Technological Progress, 2011, ranked No. 4. (4) Research and application of key technology for intelligent induction and collision avoidance warning of large cable machine based on GNSS/INS integration, First-class Prize of Science and Technology Progress of China Satellite Navigation and Positioning Association, 2015, ranked No. 1. (5) Key technology of deep underground large span *** project against direct ***, First-class Prize of Science and Technology Progress of Chinese People's Liberation Army, 2009, ranked No. 3. (6) Dynamic mechanics of rock mass and stability of complex surrounding rock, Second-class Prize of Natural Science of Chinese Academy of Sciences, 1997, ranked No. 2. (7) Deformation monitoring and stability evaluation of high slope of qingjiang geheyan hydropower plant during construction and after excavation, First-class Prize of Scientific and Technology Progress of Hubei province, 1994, ranked No. 10. (8) Outstanding organization award of "Thousands of Plants and Thousands of Associations Collaborative Action", National Economic and Trade Commission, China Association for Science and Technology, 1999, as important participating member. (9) Application of new technology of soil and rock blasting in three gorges project, First-class Prize of Golden Bridge Project of Wuhan Science and Technology Association, 2001, collective project, one of the responsible persons. (10) The damage-fracture analysis of jointed rock mass and its application in engineering, First-class Prize of Excellent Scientific and Technical Paper of Wuhan Science Association, 1993, ranked No. 1. (11) Damage fracture model and strength characteristics analysis of fractured rock masses, Outstanding Paper Award of Hubei Rock Mechanics and Engineering Society, 1990, ranked No. 1. |
