Details

Title

Experimental Study on Deformation and Damage Evolution of a Mining Roadway with Weak Layer Rock under Compression-shear Load

Journal title

Archives of Mining Sciences

Yearbook

2021

Volume

vol. 66

Issue

No 3

Authors

Affiliation

Song, Yimin : North China University of Technology, School of Civil Engineering, China ; Ren, He : North China University of Technology, School of Civil Engineering, China ; Xu, Hailiang : North China University of Technology, School of Civil Engineering, China ; An, Dong : North China University of Technology, School of Civil Engineering, China

Keywords

rock burst ; zonal fracturing ; compression-shear load ; interlayer displacement ; Digital Speckle Correlation method

Divisions of PAS

Nauki Techniczne

Coverage

351-368

Publisher

Committee of Mining PAS

Bibliography

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[4] L .M. Dou, H. He, J. He, Z.Y. Wang, New Method of Rock Burst Risk Assessment Using Relative Stress Concentration Factor Superposition [J], Journal of China Coal Society 43 (2), 327-332 (2018). DOI: CNKI:SUN:MTXB.0.2018-02-004
[5] L .P. Li, W.J. Li, Y.S. Pan, Influence of Impact Disturbance on Anomalously Low Friction Rock Bursts [J], Chinese Journal of Rock Mechanics and Engineering, 38 (1), 111-120 (2019). DOI: https://doi.org/10.13722/j.cnki.jrme.2018.0922
[6] L .Y. Pan, H.Z. Yang, Dilatancy Theory for Identification of Premonitory Information of Rock Burst [J], Chinese Journal of Rock Mechanics and Engineering 23 (1), 4528-4530 (2004). DOI: https://doi.org/10.3321/j.issn:1000-6915.2004.z1.056
[7] Q.X. Qi, T.Q. Liu, Y.W. Shi, J.L. Lv, Mechanism of Friction Sliding Instability of Rock Burst [J], Ground Pressure and Strata Control 1, 174-177+200 (1995). DOI: CNKI:SUN:KSYL.0.1995-Z1-042
[8] Q.X. Qi, Y.W. Shi, T.Q. Liu, Mechanism of Instability Caused by Viscous Sliding in Rock Burst [J], Journal of China Coal Society 22 (2), 144-148 (1997). DOI: CNKI:SUN:MTXB.0.1997-02-006
[9] Q.X. Qi, Z.Z. Gao, S. Wang, The Theory of Rock Burst Led by Structure Damage of Bedded Coal-rock Mass [J], Coal Mining Technology (2), 14-17+64 (1998). DOI: CNKI:SUN:MKKC.0.1998-02-004
[10] E.I. Shemyakin, G.L. Fisenko, M.V. Kurlenya, V.N. Oparin, Y.S. Kuznetsov, Zonal Disintegration of Rocks around Underground Work, Part I:Data of In-situ Observations [J], Journal of Mining Science 22 (3), 157-168 (1986). DOI: https://doi.org/10.1007/BF02500863368
[11] E.I. Shemyakin, G.L. Fisenko, M.V. Kurlenya, V.N. Oparin, V.N. Reva, F.P. Glushikhin, M.A. Rozenbaum, E.A. Tropp, Y.S. Kuznetsov, Zonal Disintegration of Rocks around Underground Work, Part II: Rock Fracture Simulated in Equivalent Materials [J], Journal of Mining Science 22 (4), 223-232 (1986). DOI: https://doi.org/10.1007/BF02500845
[12] E.I. Shemyakin, G.L. Fisenko, M.V. Kurlenya, V.N. Oparin, Y.S. Kuznetsov, Zonal Disintegration of Rocks around Underground Workings, Part III: Theoretical Concepts [J], Journal of Mining Science 23 (1), 1-6 (1987). DOI: https://doi.org/10.1007/BF02534034
[13] E.I. Shemyakin, M.V. Kurlenya, V.N. Oparin, V.N. Reva, F.P. Glushikhin, E.A. Tropp, Zonal Disintegration of Rocks around Underground Workings, Part IV: Practical Applications [J], Journal of Mining Science 25 (4), 297- 302 (1989). DOI: https://doi.org/10.1007/BF02528546
[14] W.Q. Guo, S.P. Ma, Y.J. Kang, Q.W. Ma, Virtual Extensometer Based on Digital Speckle Correlation Method and Its Application to Deformation Field Evolution of Rock Specimen [J], Rock and Soil Mechanics 32 (10), 3196- 3200 (2011). DOI: https://doi.org/10.16285/j.rsm.2011.10.030
[15] X.T. Zhang, Q.Y. Zhang, W. Xiang, Q. Gao, S.B. Yuan, C. Wang, Model Test Study of Zonal Disintegration in Deep Layered Jointed Rock Mass [J], Rock and Soil Mechanics 35 (8), 2247-2254 (2014). DOI: CNKI:SUN:YTLX.0.2014-08-018
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Date

2021.09.27

Type

Article

Identifier

DOI: 10.24425/ams.2021.138593
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