煤样三轴循环加卸载力学特征颗粒流模拟

Particle flow simulation on mechanical behavior of coal specimen under triaxial cyclic loading and unloading

  • 摘要: 基于煤样常规三轴试验,使用颗粒流程序PFC得到了一组能够较真实反映煤样宏观力学行为的细观参数。在此基础上,对煤样进行不同围压下循环加卸载颗粒流模拟试验,分析了不同围压下煤样的宏观参数、裂纹扩展过程及其之间的关系。通过分析弹性模量和塑性应变随加载轴向应变的变化规律,表明弹性模量随加载轴向应变先增大后减小、塑性应变随加载轴向应变先稳定增加后快速变化,证明了使用颗粒流程序模拟循环加卸载是可行的。其后对循环加卸载过程进行分析,结果表明裂纹数目的非"记忆"行为随加载的进行逐渐加强,峰后微裂纹主要产生于宏观裂纹之间的相互摩擦。结合裂纹在试样内的破裂过程分析,表明剪切带的形成是造成弹性模量和塑性应变出现拐点的主要原因,对试样在循环荷载作用下的破裂过程有了一定的认识。

     

    Abstract: Based on the experimental results of coal samples under conventional triaxial compression,a set of micro- scopic parameters in particle flow code ( PFC) reflecting the macroscopic mechanical behavior of coal samples were obtained. And the cycle loading-unloading experiments of the coal samples under different confining pressures in PFC were carried out to analyze the macroscopic parameters and microcrack propagation of sandstone to find the connec- tions. Through the analysis of the change law of elastic modulus and irrecoverable strain with axial strain,it is found that the elastic modulus increases first before a decrease and the irrecoverable strain grows steadily then changes rapid- ly with axial strain,which prove it is workable to simulate the circulated load-reload process with PFC. Then the whole process was analyzed,which indicates the non-memorial behavior of the crack is reinforced and the micro-crack after peak is mainly occurred due to the mutual friction between the macro-cracks. Considering the crack development with- in the templates,the occurrence of shear section is the main cause resulting in the change of elastic modulus and irre- coverable strain,and thus the whole propagation of the sample under cyclic loading-reloading is better understood.

     

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