|
[1] 刘咸卫,曹运兴,刘瑞珣,等. 正断层两盘的瓦斯突出分布特征及其地质成因浅析[J]. 煤炭学报,2000,25(6):571–575.(LIU Xianwei,CAO Yunxing,LIU Ruixun,et al. Analysis on distribution features of gas outburst from two walls of normal fault and geological origin[J]. Journal of China Coal Society,2000,25(6):571–575.(in Chinese))
[2] CAO Y X,HE D D,GLICK D C. Coal and gas outbursts in footwalls of reverse faults[J]. International Journal of Coal Geology,2001,48(1/2):47–63.
[3] WU Q,WANG M,WU X. Investigations of groundwater bursting into coal mine seam floors from fault zones[J]. International Journal of Rock Mechanics and Mining Sciences,2004,41(4):557–571.
[4] 李青锋,王卫军,彭文庆,等. 断层采动活化对南方煤矿岩溶突水影响研究[J]. 岩石力学与工程学报,2010,29(增1):3 417–3 424. (LI Qingfeng,WANG Weijun,PENG Wenqing,et al.Influence of activation fault after coal extraction on coal mine karst water-inrush[J]. Chinese Journal of Rock Mechanics and Engineering,2010,29(Supp.1):3 417–3 424.(in Chinese))
[5] 李 铁,纪洪广. 矿井不明水体突出过程的微震辨识技术研究[J]. 岩石力学与工程学报,2010,29(1):134–139.(LI Tie,JI Hongguang. Identification of water inrush process of unknown water body using microseismic monitoring technique[J]. Chinese Journal of Rock Mechanics and Engineering,2010,29(1):134–139.(in Chinese))
[6] LI T,MEI T T,SUN X H,et al. A study on a water-inrush incident at Laohutai coalmine[J]. International Journal of Rock Mechanics and Mining Sciences,2013,59:151–159.
[7] KARACAN C Ö,RUIZ F A,COTÈ M,et al. Coal mine methane:a review of capture and utilization practices with benefits to mining safety and to greenhouse gas reduction[J]. International Journal of Coal Geology,2011,86(2/3):121–156.
[8] JIANG B,QU Z H,WANG J L,et al. Research on coupling mechanism of mine structure and gas occurrence[J]. Procedia Earth and Planetary Science,2009,1(1):1 029–1 036.
[9] 钟世航,孙宏志,李术才,等. 隧道及地下工程施工中岩溶裂隙水及断层、溶洞等隐患的探查、预报[J]. 岩石力学与工程学报,2012,31(1):3 298–3 327.(ZHONG Shihang,SUN Hongzhi,LI Shucai,et al.Detection and forecasting for hidden danger of karst fissure water and other geological disasters during construction of tunnels and underground projects[J]. Chinese Journal of Rock Mechanics and Engineering,2012,31(1):3 298–3 327.(in Chinese))
[10] ALBER M,FRITSCHEN R,BISCHOFF M,et al.Rock mechanical investigations of seismic events in a deep longwall coal mine[J]. International Journal of Rock Mechanics and Mining Sciences,2009,46(2):408–420.
[11] ISLAM M R,SHINJO R. Mining-induced fault reactivation associated with the main conveyor belt roadway and safety of the Barapukuria Coal Mine in Bangladesh:Constraints from BEM simulations[J]. International Journal of Coal Geology,2009,79(4):115–130.
[12] ORTLEPP W D. Observation of mining-induced faults in an intact rock mass at depth[J]. International Journal of Rock Mechanics and Mining Sciences,2000,37(1/2):423–436.
[13] TOKIWA T,TSUSAKA K,ISHII E,et al. Influence of a fault system on rock mass response to shaft excavation in soft sedimentary rock,Horonobe area,northern Japan[J]. International Journal of Rock Mechanics and Mining Sciences,2011,48(5):773–781.
[14] 许忠淮. 震源机制[C]// 地震参数——数字地震学在地震预测中的作用. 中国地震局监测预报司主编. 北京:地震出版社,2003:16–25.(XU Zhonghuai. Focal mechanism[C]//Seismic Parameters-The role of digital seismology in earthquake prediction. Department of Monitoring and Forecasting,China Seismological Bureau ed. Beijing:Earthquake Press,2003:16–25.(in Chinese))
[15] 梁国正,潘一山. 抚顺龙凤矿-635水平面地应力反演分析[J]. 岩石力学与工程学报,1989,9(4):330–336.(LIANG Guozheng,PAN Yishan. Back analysis of ground stress of level-635 in Fushun Longfeng mine[J]. Chinese Journal of Rock Mechanics and Engineering,1989,9(4):330–336.(in Chinese))
|