单轴荷载作用下盐岩声波与声发射特征试验研究

doi:10.13722/j.cnki.jrme.2014.10.018

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摘要利用自主研发的声波与声发射一体化测试装置，通过单轴加载及循环荷载试验，对盐岩变形破坏特征及声波、声发射活动规律进行深入研究。研究结果表明：(1) 加载初期，盐岩裂纹体积减少，超声波波速显著增加，声发射事件极少，约占声发射事件总量的0.04%；弹性压缩阶段时，盐岩体积应变增大，而裂纹体积应变恒定，纵横波波速保持稳定，声发射活动较弱，约占声发射事件总量的2.49%；裂纹稳定增长阶段时，横波波速缓慢下降，盐岩声发射开始活跃，约占声发射事件总量的17.3%；裂纹加速增长阶段时，纵横波波速均开始显著降低，声发射活动最为激烈，并呈现震群型特征，数量约占声发射事件总量的76.5%；峰值应力后，岩体波速降至最低，有少量声发射事件产生。(2) 循环加卸载条件下，盐岩的波速特征、声发射活动与应力状态表现出良好的一致性。加载过程中，纵横波波速上升，声发射活跃；卸载过程中，纵横波波速下降，声发射平静。统计应力与声发射事件的数量规律，论证盐岩的Felicity效应；比较分析Felicity比的变化，验证盐岩的累计损伤。

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关键词 ：岩石力学, 超声波速, 声发射, 损伤, 裂纹体积, 循环加载

Abstract：The homemade integrated testing system of ultrasonic wave and acoustic emission was used in the uniaxial and the cyclic loading tests on salt rock to investigate its characteristics of deformation，ultrasonic wave velocity and acoustic emission. At the initial stage of the loading tests，the velocity of ultrasonic wave of salt rock increases significantly with the reduction of crack volume，and about 0.04% of total acoustic emission(AE) events occurred. When the salt rock enters the stage of elastic compression，the volumetric strain of rock samples increases，while the crack volume remains constant；P-wave and S-wave remains stable，and the acoustic emission activity is weak with about 2.49% of all the total AE events. When the salt rock enters the phase of linear crack growth，the shear wave velocity slowly declines and the AE events become active with about 17.3% of the total acoustic emission events. The AE events increases to 76.5% of the total acoustic emission events at the phase of accelerated crack growth，with the feature of earthquake swarm. The velocities of P-wave and S-wave begin to reduce significantly. After the peak stress，salt rock produces a small number of acoustic emission events，and the velocity of ultrasonic wave declines to the lowest level. In the test of cyclic stress loading，the ultrasonic velocity and the AE activity of salt rock varies consistently with the stress condition. The velocity of ultrasonic wave increases and the AE occurs intensely in the loading process，while the velocity of ultrasonic wave decreases and the AE occurs rarely in the unloading process. Felicity effect is confirmed and the accumulated damage is obtained by comparing the change of Felicity ratio with the results of statistical calculation of AE events and stress states.

Key words： rock mechanics ultrasonic velocity acoustic emission damage crack volume cyclic loading

收稿日期: 2014-05-12

引用本文:

李浩然1，杨春和1，2，刘玉刚3，陈锋1，马洪岭1. 单轴荷载作用下盐岩声波与声发射特征试验研究[J]. 岩石力学与工程学报, 2014, 33(10): 2107-2116.
LI Haoran1，YANG Chunhe1，2，LIU Yugang3，CHEN Feng1，MA Hongling1. EXPERIMENTAL STUDY OF ULTRASONIC VELOCITY AND ACOUSTIC EMISSION PROPERTIES OF SALT ROCK UNDER UNIAXIAL COMPRESSION LOAD. , 2014, 33(10): 2107-2116.

链接本文:

http://www.rockmech.org/CN/10.13722/j.cnki.jrme.2014.10.018 或 http://www.rockmech.org/CN/Y2014/V33/I10/2107

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