煤体结构面剪切力学特性的数值模拟研究
Numerical simulation of shear mechanical properties of coal structural plane
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摘要: 为了研究煤体层理、割理结构面的剪切力学特性,给煤矿巷道围岩分类和围岩控制提供依据。本文以晋城矿区3号煤内的层理、割理结构面为研究对象,采用实验室试验确定了标准煤样的宏观力学参数,采用PFC软件建立了含真实煤体结构面的数值模型并模拟了不同粗糙度结构面的剪切破坏过程,采用理论分析的方法研究了结构面的细观变形破坏特征及剪切力学参数变化规律,结果表明:在低法向应力作用下,裂纹主要产生在层理结构面上较大凸起体的表面,且以拉裂纹为主;随着法向应力的增大,凸起体内部裂纹逐渐增多并连接贯通,形成明显的剪切裂隙带;随着煤体层理结构面粗糙度的增大,结构面会产生较大的剪胀变形,且沿凸起体根部会产生向试样内部延伸的宏观拉裂隙;煤体结构面模型的峰值剪应力及产生的剪切裂纹、总裂纹数量明显随粗糙度及法向应力的增大而增大,随法向应力的增大,剪切裂纹占总裂纹量的比重也逐渐升高,表明在高法向应力作用下,结构面发生的剪切破坏逐渐增多。割理会导致煤体结构面的抗剪切强度明显降低,最大减小量为0.3 MPa,降低幅度为11%,而割理分布方向的不同对煤体结构面的剪切强度基本没有影响,割理的存在会导致煤体结构面破坏时裂纹数量明显增多,且割理的破坏形式以张拉破坏为主。Abstract: In order to study the shear mechanical characteristics of coal bedding and cleat structural plane,and provide basis for surrounding rock classification and control of coal mine roadway.Taking the bedding and cleat structural planes in Jincheng Mining Area No.3 coal as the research object,the macro mechanical parameters of standard coal samples are determined by laboratory test,the numerical model containing real coal structural plane is established by PFC software,and the shear failure process of structural planes with different roughness is simulated,the results show that under the action of low normal stress,the crack mainly occurs on the surface of large convex body on the bedding structural plane,and the tensile crack is the main one; with the increase of normal stress,the cracks in the convex body gradually increase and connect,forming an obvious shear crack zone; with the increase of the roughness of the coal bedding structural plane,the structural plane will produce large dilatancy deformation,and there will be macro tensile cracks extending to the inside of the sample along the root of the convex body; the peak shear stress and the number of shear cracks and total cracks in the coal structural plane model increase obviously with the increase of roughness and normal stress.With the increase of normal stress,the proportion of shear cracks in the total cracks also increases gradually,indicating that the shear failure of the structural plane increases gradually under the action of high normal stress.The shear strength of coal structural plane is significantly reduced by cutting,with the maximum reduction of 0.3 MPa and the reduction range of 11%.However,the different distribution directions of cutting basically have no effect on the shear strength of coal structural plane.The existence of cutting will significantly increase the number of cracks when coal structural plane is damaged,and the failure form of cutting is mainly tensile failure.