单轴压缩下含断层带花岗岩声发射、微震和电荷感应实验

doi:10.3969/j.issn.0253-4967.2017.05.007

摘要/Abstract

摘要： 针对岩样在外载荷作用下失稳破坏前有声发射、微震和电荷等信号的异常变化特性，运用声发射、微震和电荷感应等全波形综合监测设备对含断层带花岗岩在单轴压缩下变形破裂过程的信号进行同步监测。结果表明：含断层带花岗岩在弹性变形阶段有明显的声发射、微震和电荷感应同步前兆信号，在试样失稳破坏阶段有同步的声发射、微震和电荷感应大幅值前兆信号。断层带对花岗岩试件强度的影响是显著的，含断层带试件的单轴抗压强度大大降低。随着断层带倾角的减小，试样的单轴抗压强度降低，岩样更容易失稳，失稳破坏的能量也更大。随着断层带倾角的减小，试样变形破裂过程的声发射、微震和电荷感应信号都增多，试样出现同步的前兆信号时的应力降低，在试样失稳破坏阶段声发射、微震和电荷感应前兆信号事件的持续时间都增大。断层带倾角30°时，声发射、微震和电荷感应信号突变性增加，进入危险阶段大大提前，大震级事件也显著增多，在矿井大倾角断层处更为危险。在试样失稳破坏阶段前同步产生密集且大幅值的声发射、微震和电荷感应信号，持续时间较短；在试样失稳破坏阶段同步产生密集且最强的声发射、微震和电荷感应信号，持续时间较长。声发射监测数据能较好地反映岩石的微小破裂情况，对声发射、微震和电荷感应前兆信号相结合分析，可以更准确地获得岩石失稳破坏的前兆信息。

关键词: 断层带, 失稳破坏, 声发射, 微震, 电荷感应

Abstract: As the rock samples will produce abnormal signals of acoustic emission, microseismic and charge signals under external loading, the waveform comprehensive monitoring devices are used to synchronously monitor acoustic emission, microseismic and charge signals during the deformation and failure process of granite with fault zone under uniaxial compression. The results show that, the granite with fault zone has obvious synchronous precursory signals of acoustic emission, microseism and charge induction in the elastic deformation stage, and has high amplitude synchronous precursory signals in the instability destruction stage. The influence of fault zone on granite samples strength is remarkable, and the uniaxial compressive strength of samples with the fault zone is greatly reduced. With the angle of the fault zone decreasing, the uniaxial compressive strength of the specimens is reduced, the samples are more liable to instability and the energy of instability destruction is greater. With the fault zone angle of granite samples decreasing, the acoustic emission, microseismic and charge induction signals increase in the deformation and failure process of samples. The samples stress decreases when the acoustic emission, microseismic and charge induction precursory signals appear synchronously. The duration of acoustic emission, microseismic and charge induction precursory signals is increasing in the instability destruction stage. When the angle of the fault zone reaches 30°, the mutability of acoustic emission, microseismic and charge induction signal increases, the time to enter the dangerous stage is much earlier, and the acoustic emission events of large magnitude increase significantly, and the large angle faults of coal mine are more dangerous. The intensive and high amplitude synchronous precursory signals of acoustic emission, microseism and charge induction are produced before the instability destruction, and the signals duration is shorter. The intensive and strongest synchronous precursory signals of acoustic emission, microseism and charge induction are produced in the instability destruction, and the signals duration is longer. Acoustic emission monitoring data can better reflect the micro rupture of rock. And combined with the acoustic emission, microseismic and charge induction precursory signals, the precursory information of rock instability destruction can be obtained more accurately.

Key words: fault zone, instability destruction, acoustic emission, microseism, charge induction

中图分类号:

P313

赵扬锋, 刘力强, 潘一山. 单轴压缩下含断层带花岗岩声发射、微震和电荷感应实验[J]. 地震地质, 2017, 39(5): 964-980.

ZHAO Yang-feng, LIU Li-qiang, PAN Yi-shan. EXPERIMENT STUDY ON ACOUSTIC EMISSION, MICROSEISM AND CHARGE INDUCTION DURING FRACTURE PROCESS OF GRANITE WITH FAULT ZONE UNDER UNIAXIAL COMPRESSION[J]. SEISMOLOGY AND GEOLOGY, 2017, 39(5): 964-980.

参考文献

陈忠辉, 傅宇方, 唐春安. 1997. 岩石破裂声发射过程的围压效应［J］. 岩石力学与工程学报, 16(1):65-70. CHEN Zhong-hui, FU Yu-fang, TANG Chun-an. 1997. Confining pressure effect on acoustic emissions during rock failure［J］. Chinese Journal of Rock Mechanics and Engineering, 16(1):65-70(in Chinese).
郭自强, 刘斌. 1995. 岩石破裂电磁辐射的频率特性［J］. 地球物理学报, 38(2):221-226. GUO Zi-qiang, LIU Bin. 1995. Frequency properties of electromagnetic emission associated with microscopic cracking in rocks［J］. Acta Geophysica Sinica, 38(2):221-226(in Chinese).
郭自强, 周大庄, 施行觉, 等. 1988. 岩石破裂中的电子发射［J］. 地球物理学报, 31(5):566-571. GUO Zi-qiang, ZHOU Da-zhuang, SHI Xing-jue, et al. 1988. Electron emission during rock fracture［J］. Acta Geophysica Sinica, 31(5):566-571(in Chinese).
郝锦绮, 刘力强, 龙海丽, 等. 2004. 双轴压力下岩样自电位变化实验的新结果［J］. 地球物理学报, 47(3):475-482. HAO Jin-qi, LIU Li-qiang, LONG Hai-li, et al. 2004. New result of the experiment on self-potential change of rocks under biaxial compression［J］. Chinese Journal of Geophysics, 47(3):475-482(in Chinese).
郝锦绮, 钱书清, 高金田, 等. 2003. 岩石破裂过程中的超低频电磁异常［J］. 地震学报, 25(1):102-111. HAO Jin-qi, QIAN Shu-qing, GAO Jin-tian, et al. 2003. ULF electric and magnetic anomalies accompanying the cracking of rock sample［J］. Acta Seismologica Sinica, 25(1):102-111(in Chinese).
姜耀东, 吕玉凯, 赵毅鑫, 等. 2012. 煤样失稳破坏的多参量监测试验［J］. 岩石力学与工程学报, 31(4):667-674. JIANG Yao-dong, LV Yu-kai, ZHAO Yi-xin, et al. 2012. Multiparameter monitoring experiments for instability destruction of coal samples［J］. Chinese Journal of Rock Mechanics and Engineering, 31(4):667-674(in Chinese).
李俊平, 寇坤, 汪潮, 等. 2013. 深部开采的岩石(体)声发射/微震特征研究［J］. 安全与环境学报, 13(6):195-200. LI Jun-ping, KOU Kun, WANG Chao, et al. 2013. On the acoustic emission and micro seismic characteristics of the rock and rock mass in deep mining activities［J］. Journal of Safety and Environment, 13(6):195-200(in Chinese).
李普春, 刘力强, 郭玲莉, 等. 2013. 黏滑过程中的多点错动［J］. 地震地质, 35(1):125-137. doi:10.3969/j.issn.0253-4967.2013.01.011. LI Pu-chun, LIU Li-qiang, GUO Ling-li, et al. 2013. Multi-point dislocation in stick-slip process［J］. Seismology and Geology, 35(1):125-137(in Chinese).
李庶林, 尹贤刚, 王泳嘉, 等. 2004. 单轴受压岩石破坏全过程声发射特征研究［J］. 岩石力学与工程学报, 23(15):2499-2503. LI Shu-lin, YIN Xian-gang, WANG Yong-jia, et al. 2004. Studies on acoustic emission characteristics of uniaxial compressive rock failure［J］. Chinese Journal of Rock Mechanics and Engineering, 23(15):2499-2503(in Chinese).
李银平, 曾静, 陈龙珠, 等. 2004. 含预制裂隙大理岩破坏过程声发射特征研究［J］. 地下空间, 24(3):290-293. LI Yin-ping, ZENG Jing, CHEN Long-zhu, et al. 2004. Acoustic emission characters of pre-cracked marble under compression［J］. Underground Space, 24(3):290-293(in Chinese).
刘杰, 王恩元, 李忠辉, 等. 2011. 预制裂纹煤样单轴压缩表面电位实验研究［J］. 煤炭学报, 36(7):1135-1138. LIU Jie, WANG En-yuan, LI Zhong-hui, et al. 2011. Experiment study on surface potential of pre-cracked coal under uniaxial compression［J］. Journal of China Coal Society, 36(7):1135-1138(in Chinese).
刘培洵, 陈顺云, 郭彦双, 等. 2014. 声发射矩张量反演［J］. 地球物理学报, 57(3):858-866. LIU Pei-xun, CHEN Shun-yun, GUO Yan-shuang, et al. 2014. Moment tensor inversion of acoustic emission［J］. Chinese Journal of Geophysics, 57(3):858-866(in Chinese).
刘培洵, 刘力强, 陈顺云, 等. 2007. 实验室声发射三维定位软件［J］. 地震地质, 29(3):674-679. doi:10.3969/j.issn.0253-4967.2007.03.020. LIU Pei-xun, LIU Li-qiang, CHEN Shun-yun, et al. 2007. Software for three-dimensional location of acoustic emission in laboratory［J］. Seismology and Geology, 29(3):674-679(in Chinese).
吕玉凯, 姜耀东, 宋义敏, 等. 2014. 单轴加载下煤样失稳破坏的多参量前兆特征［J］. 中国矿业大学学报, 43(5):815-822. LV Yu-kai, JIANG Yao-dong, SONG Yi-min, et al. 2014. Experimental study on multi-parameter precursory characteristics before failure of coal samples under uniaxial loading［J］. Journal of China University of Mining & Technology, 43(5):815-822(in Chinese).
潘一山, 罗浩, 肖晓春, 等. 2012a. 三轴条件下含瓦斯煤力电感应规律的试验研究［J］. 煤炭学报, 37(6):918-922. PAN Yi-shan, LUO Hao, XIAO Xiao-chun, et al. 2012a. Experimental study on mechanical-charge induction law of coal containing gas under triaxial compression［J］. Journal of China Coal Society, 37(6):918-922(in Chinese).
潘一山, 罗浩, 唐治, 等. 2013a. 煤岩体拉伸失稳破坏电荷感应规律研究［J］. 岩石力学与工程学报, 32(7):1297-1303. PAN Yi-shan, LUO Hao, TANG Zhi, et al. 2013a. Study of charge induction law of coal and rock mass during tensile instability and failure［J］. Chinese Journal of Rock Mechanics and Engineering, 32(7):1297-1303(in Chinese).
潘一山, 唐治, 李忠华, 等. 2013b. 不同加载速率下煤岩单轴压缩电荷感应规律研究［J］. 地球物理学报, 56(3):1043-1048. PAN Yi-shan, TANG Zhi, LI Zhong-hua, et al. 2013b. Research on the charge inducing regularity of coal rock at different loading rate in uniaxial compression tests［J］. Chinese Journal of Geophysics, 56(3):1043-1048(in Chinese).
潘一山, 赵扬锋, 李国臻. 2012b. 冲击地压预测的电荷感应技术及其应用［J］. 岩石力学与工程学报, 31(S2):3988-3993. PAN Yi-shan, ZHAO Yang-feng, LI Guo-zhen. 2012b. Charge-induced technique of rockburst prediction and its application［J］. Chinese Journal of Rock Mechanics and Engineering, 31(S2):3988-3993(in Chinese).
任学坤, 王恩元, 李忠辉. 2016. 预制裂纹岩板破坏电位与电磁辐射特征的实验研究［J］. 中国矿业大学学报, 45(3):440-446. REN Xue-kun, WANG En-yuan, LI Zhong-hui, et al. 2016. Experimental study of characteristics of surface potential and electromagnetic radiation of pre-cracked rock plate during fracture［J］. Journal of China University of Mining & Technology, 45(3):440-446(in Chinese).
孙正江, 王丽华, 高宏. 1986. 岩石标本破裂时的电磁辐射和光发射［J］. 地球物理学报, 29(5):491-495. SUN Zheng-jiang, WANG Li-hua, GAO Hong. 1986. Electromagnetic emission and light radiation during fracture of rock samples［J］. Acta Geophysica Sinica, 29(5):491-495(in Chinese).
王士民, 刘丰军, 叶飞, 等. 2006. 含预制裂纹脆性岩石破坏数值模拟研究［J］. 岩土力学, 27(S1):235-238. WANG Shi-min, LIU Feng-jun, YE Fei, et al. 2006. The numerical simulation to model failure of brittle rock with prefab crack［J］. Rock and Soil Mechanics, 27(S1):235-238(in Chinese).
王晓南, 陆菜平, 薛俊华, 等. 2013. 煤岩组合体冲击破坏的声发射及微震效应规律试验研究［J］. 岩土力学, 34(9):2569-2575. WANG Xiao-nan, LU Cai-ping, XUE Jun-hua, et al. 2013. Experimental research on rules of acoustic emission and microseismic effects of burst failure of compound coal-rock samples［J］. Rock and Soil Mechanics, 34(9):2569-2575(in Chinese).
吴小平, 施行觉, 郭自强. 1990. 花岗岩压缩带电的实验研究［J］. 地球物理学报, 33(2):208-211. WU Xiao-ping, SHI Xing-jue, GUO Zi-qiang. 1990. Study of the electrification of granite samples under compression［J］. Acta Geophysica Sinica, 33(2):208-211(in Chinese).
许江, 刘义鑫, 吴慧, 等. 2013. 剪切荷载条件下岩石细观破坏及声发射特性研究［J］. 矿业安全与环保, 40(1):12-16. XU Jiang, LIU Yi-xin, WU Hui, et al. 2013. Research on microscopic failure and acoustic emission characteristics of rock under shear load［J］. Mining Safety & Environmental Protection, 40(1):12-16(in Chinese).
许晓阳, 王恩元, 许福乐, 等. 2010. 煤岩单轴压缩条件下微震频谱特征研究［J］. 应用声学, 29(2):148-153. XU Xiao-yang, WANG En-yuan, XU Fu-le, et al. 2010. Micro-seismic frequency spectrum of coal rock under uniaxial compression［J］. Applied Acoustics, 29(2):148-153(in Chinese).
杨永杰. 2006. 煤岩强度、变形及微震特征的基础试验研究. 泰安:山东科技大学. YANG Yong-jie. 2006. Basic experimental study on characteristics of strength, deformation and microseismic under compression of coal. Shandong University of Science and Technology, Tai'an(in Chinese).
张诗笛, 刘力强, 刘培洵, 等. 2014. 超高频地震信号观测［J］. 地震地质, 36(1):230-242. doi:10.3969/j.issn.0253-4967.2014.01.019. ZHANG Shi-di, LIU Li-qiang, LIU Pei-xun, et al. 2014. Observations on ultrahigh frequency earthquake signal［J］. Seismology and Geology, 36(1):230-242(in Chinese).
赵扬锋, 刘力强, 潘一山, 等. 2017. 岩石变形破裂微震、电荷感应、自电位和声发射实验研究［J］. 岩石力学与工程学报, 36(1):107-123. ZHAO Yang-feng, LIU Li-qiang, PAN Yi-shan, et al. 2017. Experiment study on microseismic, charge induction, self-potential and acoustic emission during fracture process of rocks［J］. Chinese Journal of Rock Mechanics and Engineering, 36(1):107-123(in Chinese).
赵扬锋, 潘一山, 李国臻, 等. 2010. 岩石变形破裂过程中电荷感应信号的检测［J］. 防灾减灾工程学报, 30(3):252-256. ZHAO Yang-feng, PAN Yi-shan, LI Guo-zhen, et al. 2010. Measuring of the charge-induced signal of rock during the deformation and fracture process［J］. Journal of Disaster Prevention and Mitigation Engineering, 30(3):252-256(in Chinese).
赵扬锋, 潘一山, 刘玉春, 等. 2011. 单轴压缩条件下煤样电荷感应试验研究［J］. 岩石力学与工程学报, 30(2):306-312. ZHAO Yang-feng, PAN Yi-shan, LIU Yu-chun, et al. 2011. Experimental study of charge induction of coal samples under uniaxial compression［J］. Chinese Journal of Rock Mechanics and Engineering, 30(2):306-312(in Chinese).
郑治真. 1994. 中国前兆地声的观测与研究［J］. 地球物理学报, 37(S1):251-260. ZHENG Zhi-zhen. 1994. Geosound observation study in China［J］. Acta Geophysica Sinica, 37(S1):251-260(in Chinese).
朱权洁, 姜福兴, 于正兴, 等. 2012. 爆破震动与岩石破裂微震信号能量分布特征研究［J］. 岩石力学与工程学报, 31(4):723-730. ZHU Quan-jie, JIANG Fu-xing, YU Zheng-xing, et al. 2012. Study on energy distribution characters about blasting vibration and rock fracture microseismic signal［J］. Chinese Journal of Rock Mechanics and Engineering, 31(4):723-730(in Chinese).
朱元清, 罗祥麟, 郭自强, 等. 1991. 岩石破裂时电磁辐射的机理研究［J］. 地球物理学报, 34(5):594-601. ZHU Yuan-qing, LUO Xiang-lin, GUO Zi-qiang, et al. 1991. A study of mechanism on electromagnetic emission associated with rock fracture［J］. Acta Geophysica Sinica, 34(5):594-601(in Chinese).
Kuksenko V S, Makhmudov K F. 1997a. Mechanically-induced electrical effects in natural dielectrics［J］. Technical Physics Letters, 23(2):126-127.
Kuksenko V S, Makhmudov K F, Ponomarev A V. 1997b. Relaxation of electric fields induced by mechanical loading in natural dielectrics［J］. Physics of the Solid State, 39(7):1065-1066.
Li M X, Zhang G, Chen J X. 2014. Research on the AE characteristic of the rock with rockburst proneness［J］. Applied Mechanics and Materials, 608-609:689-692.
Tang X J, Xu J, Deng T. 2012. Research on the rock acoustic emission rules under different experimental conditions［J］. Applied Mechanics and Materials, 170-173:237-241.

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[2]	李世念, 齐文博, 刘力强. 超动态变形场长时间观测系统[J]. 地震地质, 2019, 41(6): 1529-1538.
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[6]	曹凤娟, 王亮, 焦明若, 翟丽娜, 王岩. 2012年2月2日盖州M_L4.7震群序列特征及发震构造探讨[J]. 地震地质, 2013, 35(4): 842-852.
[7]	李普春, 刘力强, 郭玲莉, 刘培洵. 粘滑过程中的多点错动[J]. 地震地质, 2013, 35(1): 125-137.
[8]	缪阿丽, 马胜利. 白云母对岩盐断层带摩擦速度依赖性影响的实验研究[J]. 地震地质, 2012, 34(1): 63-75.
[9]	云龙, 郭彦双, 马瑾. 5°拐折断层在黏滑过程中物理场演化与交替活动的实验研究[J]. 地震地质, 2011, 33(2): 356-368.
[10]	刘培洵, 刘力强, 陈顺云, 扈小燕. 实验室声发射三维定位软件[J]. 地震地质, 2007, 29(3): 674-679.
[11]	扈小燕, 刘培洵, 刘力强, 马胜利. 实验室声发射实验数据服务系统的构建[J]. 地震地质, 2005, 27(4): 653-660.
[12]	雷兴林, 佐藤隆司, 西泽修. 花岗岩变形破坏的阶段性模型——应力速度及预存微裂纹密度对断层形成过程的影响[J]. 地震地质, 2004, 26(3): 436-449.
[13]	马胜利, 蒋海昆, 扈小燕, 巴晶. 基于声发射实验结果讨论大震前地震活动平静现象的机制[J]. 地震地质, 2004, 26(3): 426-435.
[14]	蔡绍平, 刘学军, 叶建庆, 蔡明军. 2002年腾冲火山区微震观测[J]. 地震地质, 2003, 25(s1): 138-146.
[15]	刘力强, 雷兴林. 超高速并行网络声发射观测系统[J]. 地震地质, 2003, 25(3): 477-479,420.