1. Introduction
Renliang SHAN, Professor, Department of Geotechnical Engineering
E-mail address: srl@cumtb.edu.cn
2. Education Background and Experience
(1)B.E. in Mining Engineering, China University of Mining and Technology, China, 1983-1987
(2)M.Eng. in Mining Engineering, Beijing Graduate School of China University of Mining and Technology, China, 1987-1990
(3)Ph.D. in Mining Engineering, Beijing Graduate School of China University of Mining and Technology, China, 1994-1997
(4)Lecturer, Beijing Graduate School of China University of Mining and Technology, 1993
(5)Associate Professor, China University of Mining and Technology (Beijing Campus), 1998
(6)Professor, China University of Mining and Technology (Beijing), 2002
3. Research Area
Interaction between Supporting Structure and Surrounding Rock;
Multi-Field Coupling of Mine Construction and Engineering in Severe Environments;
Theoretical Mechanics and Rock Dynamics in Severe Environments.
4. Academic Achievement
Published more than 200 journal papers, including SCI and EI papers in mechanics, engineering, and structure. Published 2 books for teaching materials and applied in 15 colleges and Universities. Authorized more than 20 invention patents in China and USA.
Representative research papers include:
[1] SHAN Renliang, JIANG Yusheng, et al. Obtaining dynamic complete stress-strain curves for rock using the Split Hopkinson Pressure Bar technique[J]. International Journal of Rock Mechanics and Mining Sciences, 2000, 37(6) : 983-992.
[2] SHAN Renliang, CHENG Ruiqiang, et al. Study on dynamic constitutive model of anthracite of Yunjialing coal mine[J]. Chinese Journal of Rock Mechanics and Engineering, 2006, (11):2258-2263.
[3] SHAN Renliang, KONG Xiangsong, et al. Theory and application of strong support for coal roadway sidewall[J]. Chinese Journal of Rock Mechanics and Engineering, 2013, 32(07):1304-1314.
[4] SHAN Renliang, DONG Hongguo, et al. Numerical analysis of instability soil-nailing wall in deep foundation pits containing soft soil layer at middle and deep parts[J]. Chinese Journal of Geotechnical Engineering, 2014, 36(S2):30-35.
[5] SHAN Renliang, ZHANG Xiaonan, et al. Numerical Analysis Research of Jacking Method with the Rectification on Steel-Concrete Buildings[J]. The Open Civil Engineering Journal, 2016, 10(1):223-235.
[6] SHAN Renliang, ZHANG Xiaonan, et al. Application on bearing performance of concrete filled steel tube arch with slip ends[J]. Journal of China Coal Society, 2018 ,43(09):2461-2468.
[7] SHAN Renliang, XIAO Yuhang, et al. Failure mechanism of the arch of concrete filled steel tube supports component[J]. Journal of China Coal Society, 2018, 43(07):1918-1929.
[8] SHAN Renliang, HUANG Bo, et al. Development of similar simulation equipment for roadway support subjected to vertical dynamic loads[J]. Chinese Journal of Geotechnical Engineering, 2019, 41(02): 294-302.
[9] SHAN Renliang, PENG Yanghao, et al. Research progress of coal roadway support technology at home and abroad[J]. Chinese Journal of Rock Mechanics and Engineering, 2019, 38(12):2377-2403.
[10] SHAN Renliang, BAI Yao, et al. Experimental study on frost heaving pressure properties in fractured red sandstone[J]. Journal of China Coal Society, 2019, 44(06): 1742-1752.
[11] SHAN Renliang, SONG Yongwei et al. Dynamic property tests of frozen red sandstone using a split hopkinson pressure bar[J]. Earthquake Engineering and Engineering Vibration, 2019, 18(3):511-519.
[12] SHAN Renliang, BAI Yao, et al. Study on the Triaxial Unloading Creep Mechanical Properties and Damage Constitutive Model of Red Sandstone Containing a Single Ice-Filled Flaw[J]. Rock Mechanics and Rock Engineering, 2020, : 1-23.
[13] SHAN Renliang, LI Zhaolong, et al. Research on the mechanism of asymmetric deformation and stability control of near-fault roadway under the influence of mining[J]. Engineering Failure Analysis, 2021, 127.
[14] SHAN Renliang, TONG Xiao, et al. Research on the anchor cable combined with the c-shaped tube and the mechanical properties[J]. Rock and Soil Mechanics, 2022, 43(03):602-614.
[15] SHAN Renliang, LIU Weijun, et al. Experimental Study on the Shear Mechanical Properties of Anchor Cable with C-Shaped Tube[J]. Sustainability, 2022, 14(15): 9616.
[16] SHAN Renliang, ZHAO Yan, et al. Research on the attenuation law of blasting vibration in tunnel engineering[J]. Arabian Journal of Geosciences, 2022, 15(7).
[17] SHAN Renliang, LIU Dong, et al. Study of the fracture instability and fault slip risk of overlying strata during mining near faults[J]. Bulletin of Engineering Geology and the Environment, 2023, 82(3).
[18] SHAN Renliang, ZHAO Yan, et al. Blasting vibration response and safety control of mountain tunnel[J]. Bulletin of Engineering Geology and the Environment, 2023, 82(5).
[19] SHAN Renliang, XIAO Shengchao, et al. Study on the double-sided shear test and three-dimensional numerical simulation of anchor cable with C-shaped tube[J]. Structures, 2024, 61: 106065.
[20] SHAN Renliang, SONG Wei, et al. Precise finite element analysis of shear mechanical response of anchor cable with C-shaped tube in roadway suppor[J/OL]. Chinese Journal of Rock Mechanics and Engineering:1-19. (Network launch)
Representative books include:
[1] SHAN Renliang, LI Dejian. Concise Course of Soil Mechanics. China Machine Press, 2013, Beijing.
[2] SHAN Renliang, WAN Yuanlin. Foundation Engineering. China Machine Press, 2015, Beijing.
[3] DAI Jun, SHAN Renliang. Blasting Engineering. China Machine Press, 2015, Beijing.
Representative invention patents include:
[1] SHAN Renliang, ZHANG Haochen, et al. I-shaped water-retaining dam for underground reservoir in coal mine (US10941659B2), USA, 2021.
[2] SHAN Renliang, BAI Yao, et al. A variable angle negative temperature rock direct shear apparatus and its test operation method (CN201710025938.2), China, 2018.
[3] SHAN Renliang, TIAN Liang, et al. A method of connecting electric detonators in series to detonate network in high gassy tunnel and roadway (CN201611051455.1), China, 2017.
[4] SHAN Renliang, Bai Yao, et al. Triaxial loading and unloading rheometer and test method for dynamic disturbance low temperature rock (CN201710306256.9), China, 2017.
[5] SHAN Renliang, ZHANG Haochen, et al. Strong slope anti seepage dam of underground reservoir in coal mine (CN201910087871.4), China, 2020.
[6] SHAN Renliang, BAI Yao, et al. Shear lock, grouting conduit and construction method of tunnel advance support conduit (CN202010594107.9), China, 2020.
[7] SHAN Renliang, KONG Xiangsong, et al. Nested multi-coupling model test system and test method for coal mine underground reservoir dam (CN201911375289.4), China, 2020.
[8] SHAN Renliang, HUANG Pengcheng, et al. An umbrella mining bidirectional retractable hydraulic advance support (CN201810335574.2), China, 2020.
[9] SHAN Renliang, HUANG Pengcheng, et al. Structure and construction method of Anchor Cable with C-Shaped tube (CN202010379444.6), China, 2020.
[10] SHAN Renliang, HAN Tianyu, et al. A circumferential yielding anchor tube structure and its fabrication method (CN202111072924.9), China, 2021.
5. Awards and Honors
(1) First prize of Science and Technology Progress Award of the Ministry of Coal of China, 1995.
(2) Second prize of National Science and Technology Progress Award, 2010.
(3) Expert certificate of "Government Special Allowance" issued by the State Council of the people's Republic of China, 2015.
(4) Certificate of Outstanding Youth of Central State Organs, 2015.
(5) Second prize of Shanxi Provincial Science and Technology Progress Award, 2015.
(6) First prize of China Coal Industry Science and Technology Award, 2016.
(7) Top Articles in Outstanding Science and Technology Journals of China, 2017
(8) First prize of National Coal Industry Teaching Achievement Award, 2020.
(9) Beijing Famous Teacher Award for Ideological and Political Education, 2021.
(10) Beijing Famous Teacher Award for College Teaching, 2022.
