Shengrong XIE, male, Han nationality, member of the Communist Party of China, born in Nanjing, Jiangsu Province, in January 1981, is currently Deputy Secretary, Professor, Doctor and Yueqi young scholar of the Department of Mining Engineering, School of Energy and Mining Engineering, China University of Mining and Technology (Beijing). Mainly engaged in resource mining theory and technology, mine pressure and rock strata control, mine disaster prevention theory and technology research and teaching work. Xie has presided over nearly 30 projects of the National Natural Science Foundation of China, the Youth Foundation of the National Natural Science Foundation of China, and key projects of the National Natural Science Foundation of China and won 2 first-class prizes and 8 second-class prizes for scientific and technological progress at the provincial and ministerial level. apply for / authorize more than 30 national invention patents, published 3 books and 1 textbook. More than 100 papers have been published inJournal of China Coal Society,Chinese Journal of Rock Mechanics and Engineering,International Journal of Mining Science and Technology,Tunnelling and Underground Space Technology,Rock Mechanics and Rock Engineering,Engineering Failure Analysis,Scientific Reports,International Journal of Coal Science and Technology, among which more than 50 papers are published by the first author/correspondent author SCI or EI. The following is the representative publications:

[1]Xie SR, et al. Time-space relationship between periodic fracture of plate structure of mainroof and rebound in whole region with elastic foundation boundary.Chinese Journal of Rock Mechanics and Engineering. 2019,38(06):1172-1187.

[2]Xie SR, et al. Research and application of asymmetric anchorage deepbeam bearing structure model in gob-side entry retaining roof.Journal ofMining & Safety Engineering, 2020, 37(02): 298-310.

[3]Xie SR, et al. (2020). Stability analysis of integral load-bearing structure of surrounding rock of gob-side entry retention with flexible concrete formwork.Tunnelling and Underground Space Technology,103:103492.

[4]Xie SR, et al (2020) Failure analysis and control mechanism of gob-side entry retention with a 1.7-m flexible-formwork concrete wall: A case study.Engineering Failure Analysis117:104816.

[5]Xie SR, et al (2020) Experimental and mechanistic research on modifying the mechanic properties of the high water backfill material by electrochemical treatment.Scientific Reports10:17027.

[6]Xie SR, et al (2022) Failure analysis and control technology of intersections of large-scale variable cross-section roadways in deep soft rock.International Journal of Coal Science & Technology9:19.

[7]Xie SR, et al. (2022). Collaborative control technology of external anchor-internal unloading of surrounding rock in deep large-section coal roadway under strong mining influence [J].Journal of China Coal Society,2022,47(05):1946-1957.

[8]Xie SR, et al. (2023). Failure mechanism of continuous large deformation and a novel pressure relief control technology on the two sides of deep coal roadway[J].Engineering Failure Analysis144:106941.

[9]Xie SR, et al. (2023). A New Pressure Relief Technology by Internal Hole-Making to Protect Roadway in Two Sides of Deep Coal Roadway: A Case Study.Rock Mechanics and Rock Engineering, 56(2), 1537–1561.

[10]Xie SR, et al. (2024). Research on the Control Technology and Key Parameters of External Anchor-Internal Unloading of Surrounding Rock During Gob-Side Entry Driving Under Severe Mining of 1000-m-Deep Mine[J].Rock Mechanics and Rock Engineering,57, 2913–2932.

Contact:Shengrong Xie, Professor

School of Energy and Mining Engineering

China University of Mining and Technology (Beijing)

Ding 11 Xueyuan Road, Beijing 100083, P. R. China

Email:xsrxcq@163.com

xsrxcq@cumtb.edu.cn