单轴荷载下类煤岩组合体变形规律及破坏机理

Deformation law and failure mechanism of coal-rock-like combined body under uniaxial loading

  • 摘要: 煤岩组合体由于组成结构不同,其变形破坏过程表现出与单体不同的特性。为探究煤岩组合体整体破坏过程中的变形与破坏规律,特别是组合体不同位置处的径向变形与扩容特征,以加工制作的类煤岩组合体为研究对象,采用静态应变测试系统与RMT岩石力学试验系统开展单轴压缩试验。 利用沿轴向不同位置处粘贴的径向应变片与煤、岩体中部的轴向应变片获得了试件峰前段的应变特征,并分析了组合体试件煤体部分的扩容特性。通过对破坏后的试件进行剥离分解,阐述了组合体试件整体失稳过程中的裂纹扩展与破坏机理。 研究表明:组合体不同位置径向应变不同,靠近煤体端部处应变最大,煤体中部次之,结合面处大于岩体部分,岩体中部最小,说明组合体煤体与岩体两部分变形受到彼此影响。应力峰前段组合体煤体部分径向变形受到岩体部分限制作用较显著,峰后段岩体部分破坏则明显受到煤体部分劈裂拉伸作用。在岩体部分限制作用下,相对煤单体,组合体中煤体部分扩容段变化较为平缓,在进入扩容阶段后可承受更久的荷载作用,且扩容点体积应变偏小,破坏机制的不同使得组合体整体冲击倾向性有所减弱。在对煤岩复合岩体开挖时,应加强距结合面相对较远处煤体的支护,同时应避免煤体部分破坏后裂隙扩展贯穿结合面所导致的岩体破坏情况,以保证围岩整体的稳定。

     

    Abstract: The deformation and failure process of coal-rock combined body shows different characteristics from the sin- gle body because of the different composition structure. In order to explore the deformation and failure laws of the over- all failure process,especially the radial deformation and expansion characteristics at the different positions of the com- bined body,the static strain testing system and RMT rock mechanics testing system were used to carry out uniaxial compression test for coal-rock-like combined body. The strain characteristics of the combined specimen before its ulti- mate state were obtained by the radial strain gauges attached at different positions along the axial direction and the axi- al strain gauges in the middle of the coal or rock section,and the expansion characteristics of the coal section of combined sample were analyzed. By peeling and fragmenting the damaged specimen,the crack propagation and failure mechanism during the overall instability were described. The results show that the radial strains at different positions in combined body is different,the strains from large to small order are near the end of the coal section,in the middle of the coal section,at the joint surface,and in the middle of the rock section,indicating that the deformation of coal and rock section are influenced by each other. The radial deformation of the coal section is obviously restricted by the rock section of combined body in the pre-peak stage of stress-strain curve,while the rock section of combined body is obvi- ously subjected to the splitting and stretching action of coal section in the post-peak stage of stress-strain curve. Under the restriction of the rock section,the expansion stage of the coal section is relatively flat compared with the single coal body,and the coal section which has a smaller volume strain at expansion point can withstand longer-lasting loads after entering the expansion stage. The bursting tendency of combined body is weaker than that of single body because of the different failure mechanisms. In the excavation of the coal-rock combined rock mass,the coal body with a distance from the joint surface should be supported intensively,and the failure of rock mass caused by the fracture propagation of coal through the jointed surface should be avoided in order to ensure the overall stability of surrounding rock mass.

     

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