[1] LU Shouqing, ZHANG Yongliang, SA Zhanyou, et al. Evaluation of the effect of adsorbed gas and free gas on mechanical properties of coal[J]. Environmental Earth Sciences, 2019, 78:218. [2] WEI Mingyao, LIU Jishan, ELSWORTH D, et al. Influence of gas adsorption induced non-uniform deformation on the evolution of coal permeability[J]. International Journal of Rock Mechanics & Mining Sciences, 2019, 114:71-78. [3] LU Shouqing, ZHANG Yongliang, SA Zhanyou, et al. Damage-induced permeability model of coal and its application to gas predrainage in combination of soft coal and hard coal[J]. Energy Science & Engineering, 2019, 7(4):1 352-1 367. [4] LOCKNER D A, BYERLEE J D, KUKSENKO V, et al. Quasi-static fault growth and shear fracture energy in granite[J]. Nature, 1991, 350(7):39-42. [5] COX S J D,MEREDITH P G. Microcrack formation and material softening in rock measured by monitoring acoustic emissions[J]. International Journal of Rock Mechanics & Mining Sciences & Geomechanics Abstracts, 1993, 30: 11-24. [6] HE Manchao, MIAO J L,FENG Jili. Rock burst process of limestone and its acoustic emission characteristics under true-triaxial unloading conditions[J]. International Journal of Rock Mechanics & Mining Sciences, 2010,47(2):286-298. [7] 赵敖寒,马衍坤,刘健,等. 瓦斯环境中煤体破裂AE信号频带能量特征研究[J].中国安全科学学报,2020,30(3):115-121. ZHAO Aohan, MA Yankun, LIU Jian, et al. Energy characteristics of AE signal frequency band during coal rupture in mines with gas[J]. China Safety Science Journal, 2020, 30(3):115-121. [8] 马衍坤,王恩元,李忠辉,等. 煤体瓦斯吸附渗流过程及声发射特性实验研究[J].煤炭学报,2012,37(4):641-646. MA Yankun, WANG Enyuan, LI Zhonghui, et al. Methane sorption and seepage in coal and characteristics of acoustic emission[J]. Journal of China Coal Society, 2012,37(4):641-646. [9] 王云刚,邓万九,张宏图,等. 低围压煤样破裂过程次声波响应特征研究[J].中国安全科学学报,2020,30(2):14-20. WANG Yungang, DENG Wanjiu, ZHANG Hongtu, et al. Infrasonic wave response characteristics of coal samples in fracture process under low confining pressure[J]. China Safety Science Journal, 2020, 30(2):14-20. [10] 尹光志,秦虎,黄滚.不同应力路径下含瓦斯煤岩渗流特性与声发射特征实验研究[J].岩石力学与工程学报,2013,32 (7):1 315-1 320. YIN Guangzhi, QIN Hu, HUANG Gun. Experimental study of characteristics of seepage and acoustic emission of gas-filled coal under different stress paths[J]. Chinese Journal of Rock Mechanics and Engineering, 2013, 32(7):1 315-1 320. [11] 王雨虹,刘璐璐,付华,等. 基于声发射多参数时间序列的瓦斯突出预测[J].中国安全科学学报,2018,28(5):129-134. WANG Yuhong, LIU Lulu, FU Hua, et al. Research on acoustic emission multi-parameter time series based prediction of gas outburst[J]. China Safety Science Journal, 2018, 28(5):129-134. [12] 魏洋,李忠辉,孔祥国,等. 砂岩单轴压缩破坏的临界慢化特征[J].煤炭学报,2018,43(2):427-432. WEI Yang, LI Zhonghui, KONG Xiangguo, et al. Critical slowing characteristics of sandstone under uniaxial compression failure[J]. Journal of China Coal Society, 2018, 43(2):427-432. [13] KONG Xiangguo, WANG Enyuan, HU Shaobin, et al. Critical slowing down on acoustic emission characteristics of coal containing methane[J]. Journal of Natural Gas Science and Engineering,2015,24:156-165. [14] 孔祥国,王恩元,胡少斌,等. 含瓦斯型煤破坏临界慢化前兆特征研究[J].中国矿业大学学报:自然科学版, 2017,46(1):1-7. KONG Xiangguo, WANG Enyuan, HU Shaobin, et al. Research on precursory characteristics of critical slowing down before the failure of coal samples containing methane[J]. Journal of China University of Mining & Technology:Natural Science, 2017, 46(1):1-7. [15] 张昕,李忠辉,钮月,等. 顶板岩石失稳破坏电位临界慢化特征实验研究[J].工矿自动化,2018,44(9):26-31. ZHANG Xin, LI Zhonghui, NIU Yue, et al. Experimental study on electric potential critical slowing down characteristics before unstable failure of roof rocks[J]. Industry and Mine Automation, 2018, 44(9):26-31. [16] 田贺,李忠辉,殷山,等. 煤样单轴压缩破坏红外温度临界慢化前兆研究[J].煤矿安全,2020,51(3):38-43. TIAN He, LI Zhonghui, YIN Shan, et al. Study on precursor of infrared temperature critical slowing in coal sample uniaxial compression failure[J]. Safety in Coal Mines, 2020, 51(3):38-43. |