围压作用下界面倾角对煤岩组合体损伤破坏的影响机制研究OA
Study on the influence mechanism of interface dip angle on damage and failure of coal-rock combinations under confining pressure
为研究不同界面倾角煤岩组合体破坏失稳机制,采用离散元数值模拟软件对界面倾角为 0°、15°、30°、45°和 60°的煤岩组合体进行围压为 4 MPa 的常规三轴压缩模拟试验,研究了煤岩组合体的力学特性、应力演化、裂纹演化、破坏形态以及声发射信号等一系列响应特征,进而探讨了煤岩组合体的破坏机制.结果表明:随着倾角的增大,煤岩组合体的峰值强度和总裂纹数量逐渐下降;弹性模量仅在倾角为 60°时产生显著增加;裂纹扩展方向随倾角增大有所改变,表明煤岩组合体的破坏模式也在变化;最终破坏形态随着倾角的增大从"X"形逐渐转变为"V"形,破坏区域逐渐向煤体右下方以及交界面靠近,岩体部分位置也出现裂纹,直到倾角为 60°时,破坏面形态与交界面平行;声发射信号持续时间随倾角增大而减少并且峰值提前,说明煤岩组合体最终破坏程度降低但破坏时间提前;随着倾角的增大,煤岩组合体从原先的剪切破坏逐渐转变为交界面滑移破坏,且破坏区域也由煤体转向交界面;当倾角较小时,界面效应较弱,组合体破坏主要受其材料性质控制,而随着倾角增大,界面效应显著增强,滑移错动成为主导破坏模式;在大倾角条件下,煤岩组合体的最终破坏主要源于界面结构性失稳.
To investigate the failure and instability mechanism of coal-rock combinations with different interface dip angles,a series of conventional triaxial compression simulation tests under a confining pressure of 4 MPa were conducted on coal-rock combina-tions with dip angles of 0°,15°,30°,45°,and 60° using discrete element numerical simulation software.The mechanical properties,stress evolution,crack evolution,failure patterns,and acoustic emission(AE)signals of the coal-rock combinations were systematic-ally studied,and the failure mechanism was further explored.The results show that with the increase in dip angle,the peak strength and total number of cracks of the coal-rock combinations gradually decrease;the elastic modulus increases significantly only at a dip angle of 60°;the crack propagation direction changes with the increase in dip angle,indicating a variation in the failure mode of the coal-rock combinations.The final failure pattern gradually transforms from an"X"shape to a"V"shape with increasing dip angle,and the failure region gradually approaches the lower right of the coal body and the interface,with cracks also appearing in some parts of the rock mass.At a dip angle of 60°,the failure surface is parallel to the interface.The duration of AE signals decreases and the peak occurs earlier with increasing dip angle,suggesting that the final failure degree of the coal-rock combinations reduces but the failure time advances.With the increase in dip angle,the failure mode of the coal-rock combinations gradually changes from shear failure to interface slip failure,and the failure region shifts from the coal body to the interface.At small dip angles,the inter-face effect is weak,and the failure of the combinations is mainly controlled by their material properties.With the increase in dip angle,the interface effect becomes significant,and slip dislocation becomes the dominant failure mode.Under large dip angle condi-tions,the final failure of the coal-rock combinations is mainly attributed to the structural instability of the interface.
王伟光;刘高飞;孙加智;杜锋
同煤大唐塔山煤矿有限公司,山西 大同 037001中国矿业大学(北京) 应急管理与安全工程学院,北京 100083中国矿业大学(北京) 应急管理与安全工程学院,北京 100083中国矿业大学(北京) 应急管理与安全工程学院,北京 100083
矿业与冶金
冲击地压动力灾害不同倾角煤岩组合体力学特性响应特征损伤破坏失稳机制
rock burstdynamic disasterdifferent dip anglescoal-rock combinationsmechanical propertyresponse characteristicdamage and failureinstability mechanism
《煤矿安全》 2026 (4)
82-95,14
国家自然科学基金面上资助项目(52374249,52404223)国家重点研发计划资助项目(2023YFC300900302-03)
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