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单轴压缩下砂岩微破裂演化力学行为研究

Study on mechanical behavior of sandstone micro-fractureevolution under uniaxial compression test

  • 摘要: 为分析岩石变形各阶段微裂纹孕育力学行为,探究了微观破裂发展和宏观破坏之间的演化关系,利用高速摄像仪和2套PCI-II声发射监测系统对砂岩岩样进行单轴压缩条件下监测试验,结合声发射信息与岩石微破裂的响应关系,对比分析了岩石变形各阶段声发射演化特征以及微破裂强度与破裂尺度时空演化特征,并运用矩张量反演手段获取了岩石微破裂源的产生类型和运动方向,分析裂纹发展趋向,得到了岩石破坏失稳前兆信息,揭示了微裂纹孕育演化成宏观破坏过程中的力学行为。结果表明:声发射参数演化特征与岩石各变形阶段有着较好的对应关系,且在声发射频域上存在3条主频带,分别为低频带(90~130 kHz)、中高频带(250~280 kHz)、高频带(280~330 kHz)。声发射波形持续时间与微裂纹的尺度存在正相关性,达到屈服强度前,持续时间绝大多数处于500 μs以下;屈服强度后,微破裂加剧,微破裂强度和尺度变得更为丰富,频域上出现明显中频带(130~250 kHz),大量声发射波形持续时间处于1 000 μs以上水平的活动出现,而且裂纹的产生和演化由无序状态转化为有序发展状态,微破裂运动方向逐渐偏向轴向应力方向,剪切破裂源开始主导损伤,微破裂集结成核,随后出现宏观主裂纹。将中频带声发射活跃,高强度大尺度微破裂集中出现,微破裂有序化发展3种特征现象作为评价岩石破坏失稳的前兆信息。

     

    Abstract: In order to analyze the temporal and spatial mechanical behavior of micro-crack at each stage of rock deformation and explore the evolutionary relationship between micro-fracture development and macro-destruction, the sandstone samples were subjected to uniaxial compression using high-speed camera and 2 sets of PCI-II acoustic emission monitoring systems. Combining the response relationship between acoustic emission information and rock micro-fracture, the characteristics of acoustic emission evolution at each stage of rock deformation and the temporal and spatial evolution characteristics of microfracture strength and fracture scale were compared and analyzed. Moment tensor inversion was used to obtain the source of rock micro-fracture, type and direction of movement, analyze the crack development trend. The precursor information of rock failure and instability was obtained, and the mechanical behavior in the process of micro-crack initiation and evolution into macroscopic failure was revealed. The results show that the evolution characteristics of AE parameters have a good correspondence with each deformation stage of the rock, and there are three main frequency bands in the acoustic emission radio frequency domain, namely the low frequency band (90~130 kHz), the middle and high frequency band (250~280 kHz), and high frequency band (280~330 kHz). There is a positive correlation between the acoustic emission waveform duration and the scale of the micro-cracks. Before reaching the yield strength, most of the durations are mostly below 500 μs. After the yield strength, the micro-fracture strength and scale become more abundant. There is an obvious mid-frequency band (130~250 kHz) in the domain, a large number of activities with acoustic emission waveforms with a duration of more than 1000 μs appear, and the generation and evolution of cracks are transformed from a disordered state to an orderly development state, and the direction of micro-fracture movement gradually deviates towards the axial stress direction, the source of shear rupture begins to dominate the damage before the main macro-crack appear. Three characteristic phenomena of active mid-band acoustic emission, concentrated occurrence of high-intensity large-scale micro-fractures, and orderly development of micro-fractures are used as precursor information for evaluating rock failure and instability.

     

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