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Education:  

Ph.D., 2006, Geotechnical Engineering, University of Science and Technology Beijing

M.S., 2002, Engineering Mechanics, University of Science and Technology Beijing

B.S., 2000, Mining engineering, University of Science and Technology Beijing

Experience:  

Involving in the Beijing Youth Talents Program in 2013.

Visiting scholar at the University of Minnesota (2014-2015), the University of Melbourne (2009), and The University of New South Wales (2009).

Assessors of journals including “International Journal of Rock Mechanics & Mining Sciences” and “Chinese Journal of Rock Mechanics and Engineering”, etc.

Principal Fields of Interest:

(1)The monitor of geotechnical engineering and geological disaster

(2)The study of geotechnical engineering and geological disaster prevention

(3)The influence and disaster monitor of urban underground engineering

(4)The analysis of the distribution law of deep rock mass mechanics and in-situ stress field

(5)The study on multi-field coupled mechanical properties rock mass after mining

(6)The study of geophysical detection and identification of engineering geology and disasters after mining

Graduate enrollment direction:

Civil Engineering (Geotechnical Engineering), Engineering Mechanics

Sponsored Projects:

Host or participate 2Natural Science Foundation Major Projects，4 general program，2 National High-tech R&D Program of China，2 National Program on Key Basic Research Project of China，1 National keypoint research and invention program of the thirteenth，3 National Key Technology Research and Development Program of theMinistry of Science and Technology of China，1 The 10th Five Years Key Programs for Science and Technology Development of China，1 the Ph.D. Programs Foundation of Ministry of Education of China，2 Central University Basic Research Operating Costs Funding Project，more than 10 crosswise tasks.

Awards and Honors:

1. Special prizes for provincial and ministerial scientific and technological progress.

2. First prizes for provincial and ministerial scientific and technological progress.

3. Second prizes for provincial and ministerial level scientific and technological progress.

4. More than 50 papers in academic journals and international conferences.

5.7 patents granted or applied as the first inventor.

6.5 monographs which edit or participate.

Courses Taught:

Undergraduate courses: "Civil Engineering Project Management", "Rock Mechanics and Rock Engineering", "Civil Engineering Development Frontier".

Postgraduate courses: "The Principles of Underground Engineering Disaster Control", "Study on Geotechnical Engineering", "Geotechnical Survey Technology", "Rock Slope and Underground Engineering".

Among them, "Rock Mechanics and Rock Engineering" has been awarded the Beijing Excellent Course, the National Quality Course and the National Quality Resources Sharing Course.

Books Authored or Edited:

[1]Miao Shengjun. Rockburst tendency analysis and prevention technology in deep hard rock mining. Metallurgical Industry Press, 2016.

[2]Miao Shengjun. Study on slope deformation and instability prediction of complex rock mass. Metallurgical Industry Press, 2016.

[3]Miao Shengjun. Civil engineering project management. Tsinghua university press, 2015.

Papers in Refereed Journals:

[1] Shengjun Miao, Meifeng Cai, Qifeng Guo, Peitao Wang, Mingchun Liang. Damage effects and mechanisms in Granite treated with acidic chemical solutions. International Journal of Rock Mechanics and Mining Sciences, 2016, (88): 77-86. (SCI)

[2] Sheng-Jun Miao, Mei-Feng Cai, Qi-Feng Guo, Zheng-Jun Huang. Rock burst prediction based on in-situ stress and energy accumulation theory．International Journal of Rock Mechanics and Mining Sciences, 2016, (83): 86-94. (SCI)

[3] Miao, Shengjun; Wang, Hui; Cai, Meifeng; Song, Yuanfang; Ma, Jintao. Damage constitutive model and variables of cracked rock in a hydro-chemical environment. Arabian Journal of Geosciences. 2018, 11(2): 19-27. (SCI)

[4] Miao, Shengjun; Wang, Hui; Guo, Xuelian; Liang, Mingchun; Kong, Changqing. Microcrack Growth Behavior and CWFS Criterion Parameters Optimization of Granite with PFC. Journal of Testing and Evaluation; 2018, 46(6): 10. (SCI)

[5] Shengjun Miao; Xin Hao; Xuelian Guo; Zimu Wang; Mingchun Liang. Displacement and landslide forecast based on an improved version of Saito’s method together with the Verhulst-Grey model. Arabian Journal of Geosciences. 2017, 10(3): 1-10 (SCI)

[6] Shengjun Miao, Yuan Li, Wenhui Tan, Fenhua Ren. Relation between the in-situ stress field and geological tectonics of a gold mine area in Jiaodong Peninsula, China. International Journal of Rock Mechanics and Mining Sciences. 2012, (51): 76-80. (SCI)

[7] Sheng-jun Miao, Xing-ping Lai, Xing-guang Zhao, Fen-hua Ren. Simulation experiment of AE-based localization damage and deformation characteristic on covering rock in mined-out area. International journal of minerals, metallurgy and materials, 2009, 16(3): 255-260. (SCI)

[8]MIAO Sheng-jun, CAI Mei-feng, JI Dong ,GUO Qi-feng, BAI Yu-bing.Aging features and mechanism of Granite's damage under the action of acidic chemical solutions. Journal of China Coal Society, 2016,41(05),1137-1144.(EI)

[9] Shengjun Miao, Zimu Wang, Hao Wang, Deng Zhang. The Direction of Shear Fracture Trend Surface in Triaxial Unequal Stress Fields. Electronic Journal of Geotechnical Engineering， 2016, 21(06): 2269-2286. (EI)

[10]MIAO Sheng-jun CAI Mei-feng JI Dong GUO Qi-feng.MIAO Sheng-jun CAI Mei-feng JI Dong GUO Qi-feng.Journal of China Coal Society, Journal of China Coal Society, 2016, 41(04), 829-835

[11]Miao ShengJun, Huang GuanLin, Chen Fei, Shi LiChao，Analysis of the construction of new metro impact on the existing subway station, Advanced Materials Research, 2014, 1030-1032: 1966-1969. (EI)

[12]MIAO Shengjun，YANG Zhijun，LONG Chao，TAN Wenhui.Equivalent Plastic Parmeters Optimization Research on CWFS Failure Criterion Model of Brittle Hard Rock. Chinese Journal of Rock Mechanics and Engineering.2013, 32(S1): 2600-2605. (EI)

[13] Miao Shengjun, Long Chao, Huang Guanlin, Chen Han. The parameter identification of the steep seam goaf's structural characteristics of the coal and rock based on GPR, Applied Mechanics and Materials, 2013, 390: 403-407. (EI)

[14]Miao Shengjun, Yang Zhijun, Long Chao, Ren Fenhua.Micro-mechanical characteristics and cracks revolution laws of migmatitic granite under different load. Journal of Jiangsu University (Natural Science Edition), 2012, 33(4): 469-473. (EI)

[15] Shengjun Miao, Mingchun Liang, Xuelian Guo, ZimuWang, and Xin Hao. Micro Mechanical Properties and CWFS Criterion Parameters Optimization of Brittle Hard Rock Under Compression. Journal of Computational and Theoretical Nanoscience, 2016, 13(9): 5899-5906. (EI)

[16] Zhangying, Miao shengjun . Meso-energy evolution and rock burst proneness of the stress thresholds of granite under triaxial cyclic loading and unloading test. Chinese journal of engineering science. 2019, 41(7): 864-873. (EI )

[17]LI Peng,MIAO Sheng-jun.Analysis of the characteristics of in-situ stress field and fault activity in the coal mining area of china, Journal of China Coal Society. 2016,41(S2),319-329.

[18]Li Peng, Miao shengjun . Study on measured stress field and fault stability in metal mining areas in mainland China. Chinese journal of engineering science. 2017, 39(3): 323-334. (EI )

[19]Xuelian Guo, Xiuming Liu, Shengjun Miao, Guoyong Zhao, Yixin Liu. Variability of magnetic character of S5-1 paleosol (age similar to 470 Ka) along a rainfall transect explains why susceptibility decreased with high rainfall. Aeolian Research, 2015, 19: 55-63. (SCI)

[20] Miao Shengjun, Chen Fei, Cui Guangjian. Thermal conductivity of rocks and the analysis of its influence factors, Seventh International Conference on Measuring. Technology and Mechatronics Automation (ICMTMA). 2015: 1337-1340. (EI )

[21] Pei Dianfei, Miao Shengjun, Huang Guanlin, Chen Han. Study on lognormal distribution characteristics of a hydrothermal gold deposit mineralization in Jiaodong Peninsula, China. 2nd International Conference on Chemical Engineering, Metallurgical Engineering and Metallic Materials, CMMM， 2013, 289-294. (EI )

[22] Shengjun Miao, Jianjun Shi, Yuan Li, Haibo Liu. In-situ stress measurement and result analysis in the 8th mine of Pingmei Group, China. Proceedings of 2011 International conference on remote sensing, Environment and transportation engineering. 2011, 425-431. (EI)

[23] Shengjun Miao, Peiliang Li, Yuan Li, Xiaokang Liao. Experiments and study on proportioning design of SMA-13 warm mix asphalt. Advanced Materials Research (Switzerland), 2011, 198: 1032-1037. (EI)

[24] MIAO Sheng-jun, LI Zheng-sheng, JI Dong, LI Jiang-bo. Dynamic measurements and behave laws of tunnel pressure in Deep mining. Proceedings of International conference on electric technology and civil engineering, 2011, 250-253. (EI)

[25] Miao Shengjun, Lai Xingping, Cui Feng. Top coal flows in an excavation disturbed zone of high section top coal caving of an extremely steep and thick seam. Mining Science and Technology (China), 2011, 21(1): 99-105. (EI)

[26] S.J. Miao, X.P. Lai, F. Cui, J.T. Cao. Top coal deformation characteristics of high section fully-mechanized top-coal caving for extra-steep-thick seam. Proceedings of 44th US Rock Mechanics Symposium - 5th US / Canada Rock Mechanics Symposium, United States. 2010, 117-122. (EI)

[27] Miao Shengjun, Wang Shuren, Li Yuan. Numerical Research on Top Coal Movement, Failure Mechanism and Supports' Stresses Characters of Fully Mechanized Top-Coal Caving in Steep Thick Seam. Proceedings of 7th International Symposium on Safety Science and Technology (ISSST), 2010, 1627-1631. (ISTP)

[28] S.J. Miao, X.P. Lai. Segment pre-blasting application on 52 m sub-level caving of steep and thick coal seam under complex conditions. Proceedings of the Fifth International Symposium on In-situ Rock Stress, 2010, 355-359. (ISTP)

[29] Miao Shengjun, Fan Shaowu, Cai Meifeng, Chen Changzhen.Dynamic characteristics experiment study of loading rock based on theory of load/unload response rate. Journal of China Coal Society. 2009, 34(3): 267-271. (EI)

[30] S.J. Miao, W.H. Tan, Z.F. Hou & P.L. li. Deformation prediction research based on improved Satio’s method with Verhulst grey model. Proceedings of the international young scholars’ symposium on rock mechanics, 28 April-2 May, 2008, Beijing, China. Published by: Taylor & Francis/Balkema. 919-923. (EI, ISTP)

[31] Miao Shengjun, Cai Meifeng, Ren Fenhua, Ouyang Zhenhua. Adjustment and uncertainty analysis of GPS deformation monitoring. Rock and Soil Mechanics, 2008, 29(2): 562-566. (EI )

[32] Miao Shengjun, Cai Meifeng, Xia Xunqing, Liu Hua, Tong Huichao. GPS slope deformation monitoring in deep open pit mine. Chinese Journal of Engineering, 2006, 28(6): 515-518. (EI )

[33] Miao Shengjun, Wang Linhai, Lai Xingping, Wang Shuanghong. Relation Analysis Betetween In-Situ Stress Field and Geological Tectonism In Sanshandao Gold Mine. Chinese Journal of Rock Mechanics and Engineering, 2004, 23(23): 3996 -3999. (EI )

[34] Miao Shengjun, Wang Hao, Cui Guangjian. Simulation and Stability Analysis of Deep Miningin Jinyuan Mine. Mining Research and Development, 2017, 37(2): 23-26.

[35] Liu Yayun, Miao Shengjun, Hao Xin,Wang Zimu. Research into the acoustic emission characteristics of granite under different load conditions and rock burst proneness. China mining magazing, 2016, 25(s1): 397-401.

[36] Pei Dianfei, Miao Shengjun, Long Chao, Chen Han, Hhuang Guanlin. Rock burst tendency research based on a variety of criteria and gathered energy. China mining magazing, 2014, (02): 79-83.

[37] Li Zhengsheng, Miao Shengjun, Ren Fenghua Yang Wenliang.. Study on monitoring of roadway pressure and displacement in deep mining. China mining magazing, 2012, 21(05): 96-98.

[38]Miao Shengun, Li Peiliang, Ren Fenhua. Study on Hydro-geological Environment and Seepage Field of Slope in Shuichang Iron Mine. Nonferrous Metals(Mining Section), 2008, 60(2): 16-20.

[39]Miao Shengjun, Wang Yang, Li Peiliang, Ren Fenhua. Study on laneway excavaption monitoring and best secondary support time with new austrain tunnelling method. Gold, 2008, 29(3): 27-31.

[40]Miao Shengjun, Zhang Yun, Wu Haowei, Liu Haibo, Li Jiangbo. Par ameter sensibility analysis for the stability of tunnel sur rounding rock strengthened by grouting. Modern Tunnelling Technology, 2008, 45(1): 16~20.

[41]Miao Shengjun, Li Changhong, Dong Huichao, Ren Fenhua. FLAC3D Numerical Simulation & Analysis of Slope Excavation in Shuichang Iron Mine. Nonferrous Metals(Mining Section), 2008, 60(1): 29-33.

[42]Miao Shengjun, Cai Meifeng, Lai Xingping, Ren Fenhua.. Study on Deformation Prediction of Improved Saito'S Method Based on Verhulst Model. China mining magazing, 2007, 16(4): 46-50.

[43]Miao Shengjun, Cai Meifeng, Zhang Liying, Guan Xiaofeng. GPS Monitoring and Data Processing of Slope Deformation in Shuichang Iron Mine. Metal Mine, 2005, (346): 11-13.

Patent:

[1]Miao Shengjun, li changhong, ren fenhua, longchao. A landslide prediction method based on deformation information of critical slip area. ZL 201110308859.5.

[2]Miao Shengjun, Liang Mingchun, Wang Hao, Hao Xin. A rigid and flexible coupling energy absorption support technology suitable for deep mining roadway. 201610854612.6.

[3]Miao Shengjun, Wang Zimu, Bai Yubing, Liu Yayun. The utility model relates to a high strength energy absorbing bolt with good elongation. 201611029822.8.

[4]Miao Shengjun, Wang Hui, Song Yuanfang, Kong Changqing, Guo Xiangyang. A real-time active prevention and control method for rock burst of deep buried tunnel. 201810031286.8.

[5]Miao Shengjun, Liang Mingchun, Wang Hui. The utility model relates to an energy absorbing backing plate suitable for deep mining roadway. 201810588371.4.

Invited Lectures and Presentations:

[1]International Young Scholars’ Symposium on Rock Mechanics. Boundaries of Rock Mechanics: Recent Advances and Challenges for the 21st Century. April 2008

[2]The 2ND ISRM International Young Scholars’ Symposium on Rock Mechanics. Rock Mechanics: Achievements and Ambitions. October 2010