Numerical investigation of slip and fracture instability mechanism of coal-rock parting-coal structure (CRCS)

Yang Liu; Cai-Ping Lu; Heng Zhang; Hong-Yu Wang

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Numerical investigation of slip and fracture instability mechanism of coal-rock parting-coal structure (CRCS)

机译：煤岩离型煤结构滑移和断裂失稳机理的数值研究

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Based on theoretical analysis and numerical simulations, the factors that influence the slip and fracture instability of coal-rock parting -coal structure (CRCS) were investigated. Stress, coefficient of friction and energy dissipation during slip and fracture instability were analysed individually. The macro- and microscopic mechanical behaviours, especially acoustic emission (AE) characteristics, were determined. According to the variations in stress, energy and b-value of AE events, the precursors of CRCS slip and fracture instability were summarized. Finally, the instability mechanism was proposed. This work is relevant for early warning coal-rock dynamic disasters that are triggered by slip and fracture instability of CRCS in coal mines.

机译：在理论分析和数值模拟的基础上，研究了影响煤岩离型煤结构滑移和裂缝失稳的因素。分别分析了滑移和断裂不稳定性期间的应力，摩擦系数和能量耗散。确定了宏观和微观机械行为，尤其是声发射（AE）特性。根据AE事件的应力，能量和b值的变化，总结了CRCS滑动和断裂失稳的前兆。最后，提出了失稳机理。这项工作与由CRCS的滑移和裂缝不稳定性触发的煤岩动态灾害预警有关。

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来源
《Journal of structural geology》 |2019年第1期|265-278|共14页
作者
Yang Liu; Cai-Ping Lu; Heng Zhang; Hong-Yu Wang;
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作者单位

Key Laboratory of Deep Coal Resource Mining (Ministry of Education), School of Mines, China University of Mining and Technology;

Department of Civil, Environmental and Mining Engineering, School of Engineering, University of Western Australia;

Department of Civil Engineering and Lassonde Institute, University of Toronto;

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正文语种 eng
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关键词
Coal-rock parting-coal structure (CRCS); Discontinuity; Slip and fracture instability; Acoustic emission; Precursors;

机译：煤岩分煤结构;不连续性;滑动和裂缝失稳;声发射;前驱体;

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Numerical investigation of slip and fracture instability mechanism of coal-rock parting-coal structure (CRCS)

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