Abstract
Herein, the mechanisms underlying the slip and failure of a coal-rock parting-coal structure (CRCS) under biaxial compression with horizontal unloading were investigated using numerical simulations and field observations. The failure and instability characteristics were studied, including fracture, slip, and energy release characteristics, as well as the mechanisms whereby different factors influence the failure and instability characteristics of the structure. Based on a rockburst triggered by rock-parting slip in the field, the results obtained from the numerical simulations were verified. In particular, the microseismic (MS) effects of rock-bursts were revealed in detail. The following four points were addressed: (1) a linear positive correlation between the peak value of axial stress and the actual value of the horizontal stress was found under biaxial compression; (2) shear stress of the discontinuities and local stress concentration were the leading factors for the failure and instability of the CRCS under both biaxial compressional stress and horizontal stress unloading conditions; 3) higher horizontal stress or higher unloading speed easily induced instability (fracture or slip) of the CRCS, while the fracture and slip degree weakened with the increasing unloading speed; and 4) the MS signals of the rockburst were characterized by a wide range of frequencies and high amplitudes, in which the low-frequency part was related to the slip of the rock parting and the high-frequency part reflected fractures of the coal-rock mass. This work is relevant for understanding the mechanism underlying coal-rock dynamic disasters triggered by the slip and instability of CRCS in coal mines.
Highlights
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Microscopic features of shear slip and failure in coal-rock parting-coal structures were researched.
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Dominant factors for slip and failure of coal-rock parting-coal structures were investigated.
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Stress and unloading speed have significant effects on shear slip and failure of coal-rock parting-coal structures.
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Field investigations confirmed the instability characteristics of coal-rock parting-coal structures.
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References
Abdul-Wahed M, Heib M, Senfaute G (2006) Mining-induced seismicity: Seismic measurement using multiplet approach and numerical modeling. Int J Coal Geol 66:137–147
Bahaaddini M, Sharrock G, Hebblewhite BK (2013) Numerical investigation of the effect of joint geometrical parameters on the mechanical properties of a non-persistent jointed rock mass under uniaxial compression. Comput Geotech 49:206–225
Bandis SC, Lumsden AC, Barton NR (1983) Fundamentals of rock joint deformation. Int J Rock Mech Min Sci Geomech Abstr 20:249–268
Bobet A, Fakhimi A, Johnson S, Morris J, Tonon F, Yeung M (2009) Numerical models in discontinuous media: review of advances for rock mechanics applications. J Geotech Geoenviron Eng 135:1547–1561
Brace WF, Byerlee JD (1966) Stick-slip as a mechanism for earthquakes. Science 153:990–992
Byerlee JD (1970) The mechanics of stick-slip. Tectonophysics 9:475–486
Byerlee JD, Brace WF (1968) Stick slip, stable sliding, and earthquakes-effect of rock type, pressure, strain rate, and stiffness. J Geophys Res 73:6031–6037
Camones LAM, do Amaral Vargas Jr E, Figueiredo RPD, Velloso RQ (2013) Application of the discrete element method for modeling of rock crack propagation and coalescence in the step-path failure mechanism. Eng Geol 153:80–94
Cao RH, Cao P, Lin H, Pu CZ, Ou K (2016) Mechanical behavior of brittle rock-like specimens with pre-existing fissures under uniaxial loading: experimental studies and particle mechanics approach. Rock Mech Rock Eng 49:763–783
Cundall PA, Strack OD (1979) A discrete numerical model for granular assemblies. Geotechnique 29:47–65
Das AJ, Mandal PK, Bhattacharjee R, Tiwari S, Kushwaha A, Roy LB (2017) Evaluation of stability of underground workings for exploitation of an inclined coal seam by the ubiquitous joint model. Int J Rock Mech Min Sci 93:101–114
Farmer IW (1985) Bursts and unstable. In: Coal mine structures. Springer, pp 259–287
Gay NC, Spencer D, Vanwyk JJ, Vanderheever PK (1984) The control of geological and mining parameters on seismicity in the Klerksdorp gold mining district. In: Proceedings symposium on rockbursts and seismicity in mines. The South African Institute of Mining and Metallurgy, Johannesburg, pp 107–120
Ghazvinian A, Sarfarazi V, Schubert W, Blumel M (2012) A Study of the failure mechanism of planar non-persistent open joints using PFC2D. Rock Mech Rock Eng 45:677–693
Hazzard JF, Young RP (2000) Simulating acoustic emissions in bonded-particle models of rock. Int J Rock Mech Min Sci 37(5):867–872. https://doi.org/10.1016/S1365-1609(00)00017-4
He XQ, Chen WX, Nie BS, Mitri HN (2011) Electromagnetic emission theory and its application to dynamic phenomena in coal-rock. Int J Rock Mech Min Sci 48:1352–1358
Itasca Consulting Group (2016) Inc. PFC 5.0 Documentation [Z]
Kazerani T, Zhao J (2010) Micromechanical parameters in bonded particle method for modelling of brittle material failure. Int J Numer Anal Methods GeoMech 34:1877–1895
Li S, Dun LI (2011) Numerical simulation analysis of covering rock strata as mining steep inclined coal seam under fault movement. Trans Nonferrous Metal Soc 21:556–561
Li ZL, Dou LM, Cai W, Wang GF, Ding YL, Kong Y (2016) Mechanical analysis of static stress within fault-pillars based on a Voussoir beam structure. Rock Mech Rock Eng 49:1097–1105
Li XM, Wang ZH, Zhang JW (2017) Stability of roof structure and its control in steeply inclined coal seams. Int J Min Sci Technol 27:359–364
Li H, Ma HL, Shi XL, Zhou J, Zhang HN, Daemen JJK (2020) A 3D grain-based model for simulating the micromechanical behavior of salt rock. Rock Mech Rock Eng 53:2819–2837
Liu J, Wang EY, Song DZ, Wang SH, Niu Y (2015) Effect of rock strength on failure mode and mechanical behavior of composite samples. Arab J Geosci 8:4527–4539
Liu Y, Lu CP, Zhang H, Wang HY (2019a) Numerical investigation of slip and fracture instability mechanism of coal-rock parting-coal structure (CRCS). J Struct Geol 118:265–278
Liu Y, Lu CP, Liu B, Xiao ZY, Zhang H (2019b) Slip and instability mechanisms of coal-rock parting-coal structure (CRCS) under coupled dynamic and static loading. Energy Sci Eng. https://doi.org/10.1002/ese3.454
Lu CP, Dou LM, Zhang N, Xue JH, Wang XN, Liu H, Zhang JW (2013) Microseismic frequency-spectrum evolutionary rule of rockburst triggered by roof fall. Int J Rock Mech Min Sci 64:6–16
Lu CP, Liu Y, Zhao TB, Wang HY (2016) Experimental research on shear-slip characteristics of simulated fault with zigzag-type gouge. Tribol Int 99:187–197
Lu CP, Liu GJ, Liu Y, Zhang H (2019) Mechanisms of rockburst triggered by slip and fracture of coal–parting–coal structure discontinuities. Rock Mech Rock Eng 52:3279–3292
Mayer JM, Stead D (2017) Exploration into the causes of uncertainty in UDEC grain boundary models. Comput Geotech 82:110–123
Mohammadnejad M, Liu HY, Chan A, Dehkhoda S, Fukuda D (2021) An overview on advances in computational fracture mechanics of rock. Geosyst Eng 24:206–229
Nguyen NHT, Bui HH, Nguyen GD, Kodikara J (2017) A cohesive damage-plasticity model for DEM and its application for numerical investigation of soft rock fracture properties. Int J Plast 98:175–196
Petukhov IM, Linkov AM (1979) The theory of post failure deformations and the problem of stability in rock mechanics. Int J Rock Mech Min Sci Geomech 16:57–76
Rafael R, Cristobal L (2010) Analysis of methane emissions in a tunnel excavated through Carboniferous strata based on underground coal mining experience. Tunn Undergr Space Technol 25:456–468
Rorke AJ, Roering C (1984) Source mechanism studies of mining-induced seismic events in a deep level gold mine. In: Proceedings symposium on rockbursts and seismicity in mines. The South African Institute of Mining and Metallurgy, Johannesburg, pp 51–56
Ruina A (1983) Slip unstable and state variable friction laws. J Geophys Res 88:10359–10370
Ryder JA (1988) Excess shear stress in the assessment of geologically hazardous situations. J S Afr Inst Min Metall 88:27–39
Sepehri M, Apel DB, Hall R (2020) Evaluation of mining-induced energy and rockburst prediction at a diamond mine in Canada using a full 3D elastoplastic finite element model. Eng Geol 266:1–17
Souley M, Homand F (1996) Stability of jointed rock masses evaluated by UDEC with an extended Saeb-Amadei constitutive law. Int J Rock Mech Min Sci Geomech Abstr 33:233–244
Spottiswoode SM, McGarr A (1975) Source parameters of tremors in a deep-level gold mine. Bull Seismol Soc Am 65:93–112
Stiller H, Hurtig E, Grosser H, Knoll P (1983) On the nature of mining tremors. J Earthq Predict Res Tokyo 2:61
Takeuchi A, Laub WS, Freund FT (2006) Current and surface potential induced by stress-activated positive holes in igneous rocks. Phys Chem Earth 31:240–247
Vanderheever PK (1982) Some technical and research aspects of the Klerksdorp seismic network. In: Proc 1st international congress on rockbursts and seismicity in mines, Johannesburg, pp 349–350
Wang T, Jiang YD, Zhan SJ, Wang C (2014) Frictional sliding tests on combined coal-rock samples. J Rock Mech Geotech Eng 6:280–286
Wang JC, Jiang FX, Meng XJ, Wang XY, Zhu ST, Feng Y (2016) Mechanism of rock burst occurrence in specially thick coal seam with rock parting. Rock Mech Rock Eng 49:1953–1965
Wang HY, Dyskin AV, Pasternak E, Dight P, Sarmadivaleh M (2020a) Experimental and numerical study into 3D crack growth from a spherical pore in biaxial compression. Rock Mech Rock Eng 53:77–102
Wang P, Ren F, Cai M (2020b) Influence of joint geometry and roughness on the multiscale shear behaviour of fractured rock mass using particle flow code. Arab J Geosci 13:165
Williams TJ, Wideman CJ, Scott DF (1992) Case history of a slip-type rockburst. Pure Appl Geophys 139:627–637
Xie H, Pariseau WG (1993) Fractal character and mechanism of rock bursts. Int J Rock Mech Min Sci Geomech Abstr 30:343–350
Zhang XP, Wong LNY (2014) Displacement field analysis for cracking processes in bonded-particle model. Bull Eng Geol Environ 73:13–21
Zhang ZH, Gao WL, Li KP, Li BJ (2020) Numerical simulation of rock mass blasting using particle flow code and particle expansion loading algorithm. Simul Model Pract Theory 104:1–13
Zhao ZH, Wang WM, Wang LH, Dai CQ (2015) Compression-shear strength criterion of coal-rock combination model considering interface effect. Tunn Undergr Space Technol 47:193–199
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We gratefully wish to acknowledge the collaborative funding support from the National Natural Science Foundation of China (51574225, 52104102) and the Fundamental Research Funds for the Central Universities (2021QN1001). In addition, the data in this manuscript are available from authors.
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Liu, Y., Lu, CP., Xiao, ZY. et al. Mechanisms Underlying the Slip and Failure of Coal-Rock Parting-Coal Structures Under Unloading Conditions. Rock Mech Rock Eng 55, 4913–4928 (2022). https://doi.org/10.1007/s00603-022-02919-3
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DOI: https://doi.org/10.1007/s00603-022-02919-3