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基于PFC^(3D)的花岗岩剪切破裂细观裂隙与能量演化规律探究 被引量:1

Evolution of microcracks and energy of granite during shear test with PFC^(3D)
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摘要 为了探究法向应力对岩石剪切过程中细观损伤演化的影响,开展了不同法向应力作用下的花岗岩直剪试验与PFC^(3D)数值模拟试验,结合声发射信号监测及声发射信息特征值RA(上升时间与振幅的比值)与AF(声发射振铃计数与持续时间的比值)的分析,对花岗岩在不同法向应力作用下剪切变形过程中细观微裂纹及能量演化特征进行了研究,研究结果表明:基于平行黏结接触模型建立的PFC^(3D)模型,不仅在宏观力学参数与破坏模式上与岩石物理试验相近,而且在岩石细观裂纹与能量演化规律上也与岩石物理试验基本一致;花岗岩剪切破坏过程中主要产生张拉裂纹,峰值应力点前产生的微裂纹只占裂纹总数的10%~30%,且法向应力越大,峰值应力点前岩石内部产生的微裂纹数量越少;花岗岩剪切变形过程中,声发射信号可以分为平静期、稳定期和加速期,法向应力越大,平静期越明显,即法向应力对岩石内部微裂纹的生成起抑制作用;随着法向应力的增大,花岗岩剪切破坏过程中,声发射累计振铃计数与岩石内部微裂纹总数均逐渐增大;随着法向应力的增大,花岗岩剪切破坏过程中产生的剪切裂纹数量及其占微裂纹总数的比例均逐渐增加;花岗岩剪切变形过程中外力做功转化为弹性能与耗散能,随着法向应力增大,岩石剪切破坏所需总能量逐渐增大,弹性能与耗散能近似线性增大,且其中耗散能所占的比例逐渐增大。 In order to investigate the influence of normal stress on the internal meso-scale damage process during rock shearing,direct shearing experiments and PFC^(3D)numerical simulation experiments of granite under different normal stresses were carried out,combined with acoustic emission signal monitoring and analysis of acoustic emission information characteristic values of RA(ratio of rise time to amplitude)and AF(ratio of acoustic emission ring count to duration).The results show that the PFC^(3D)model based on the parallel adhesive contact model is not only similar to rock physics experiments in macroscopic mechanical parameters and failure modes,but also basically consistent with rock physics experiments in the evolution of meso-cracks and energy in rock.Tensile micro-cracks are mainly produced in the process of shear failure of granite,and the microcracks produced before the peak stress point only account for 10%−30%of the total number of cracks,and the larger the normal stress,the smaller the number of microcracks produced inside the rock before the peak stress point.In the process of granite shear deformation,the acoustic emission signal can be divided into calm period,stable period and accelerated period,the greater the normal stress,the more obvious the calm period,i.e.the normal stress inhibits the generation of microcracks inside the rock.With the increase of the normal stress,the cumulative acoustic emission ring count and the total number of microcracks inside the rock gradually increase in the process of granite shear damage.With the increase of normal stress,the number of shear cracks produced during the shear damage of granite and its proportion to the total number of microcracks gradually increased.The work done by the external force during the shear deformation of granite is converted into elastic energy and dissipation energy,with the increase of normal stress,the total energy required for rock shear failure gradually increases,and the elastic energy and dissipation energy increase approximately linearly,in which the proportion of dissipation energy gradually increases.
作者 郭纪哲 冯增朝 李学成 GUO Jizhe;FENG Zengchao;LI Xuecheng(Key Laboratory of In-situ Modified Mining,Ministry of Education,Taiyuan University of Technology,Taiyuan 030024,China)
出处 《煤炭科学技术》 EI CAS CSCD 北大核心 2024年第5期60-70,共11页 Coal Science and Technology
基金 国家自然科学基金青年基金资助项目(12102293)。
关键词 岩石力学 细观裂隙 花岗岩 直剪试验 PFC^(3D)模拟 rock mechanics meso-cracks granite direct shear test PFC^(3D)simulation
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