·1136· 工程科学学报，第39卷，第8期 深部采动裂隙岩体的多因素-多尺度耦合动力成灾机 [11]Li H J,Li C H,Zhou Q,et al.In-situ stress measurement and 理以及深部开采诱发型灾害的多元信息监测诊断预报 distribution characteristics of Liguanji iron mine.Met Mine,2012 与防控体系 (8):15 (李洪军，李长洪，周钦，等.李官集铁矿地应力的测量与分 (3)对超深开采灾害研究的五个方向进行了具体 布特征研究.金属矿山，2012(8)：15) 的建议性展望，探讨了该领域学术界和工程界未来研 [12]Ji D,Ren F H,Peng C,et al.A stress interval classification 究的重要落脚点，对超深开采安全机理及防灾减灾研 method for calculating rock elastic parameters in in-situ stress 究具有一定的参考价值及促进作用. measurement.Chin Rock Mech Eng,2014,33 Suppl 1): 2728 参考文献 (冀东，任奋华，彭超.等.地应力弹性参数计算的应力区间 [1]Wang H Y,Wang M.Research of deep mining question and de- 分级方法研究.岩石力学与工程学报，2014,33（增刊1）： velopment prospects.Coal Technol,2008,27(1):3 2728) (王宏岩，王猛.深部矿井开采问题与发展前景研究.煤炭技 [13]Wang C H,Xing B R,Chen Y Q.Prediction of stress field of 术，2008,27(1)：3) super-long deep-buried tunnel area and case analysis.Chin J [2]Zhao X D,Li Y H,Liu J P,et al.Study on microseismic activity Geotech Eng,2014,36(5):955 in potential rockburst zone during deep excavation in Hongtoushan (王成虎，邢博瑞，陈永前.长大深埋隧道工程区地应力状 Mine.J Northeastern Unig Nat Sci,2009,30(9):1330 态预测与实例分析.岩土工程学报，2014,36(5)：955) (赵兴东，李元辉，刘建坡，等。红透山矿深部开采岩爆潜在 [14]Deng T,Li T H,Tang J X,et al.Research on the in-situ stress 区微震活动性研究.东北大学学报（自然科学版），2009,30 measurement based on the acoustic emission Kaiser effect.Mod (9):1330) Min,2014(12):13 [3]Chen Y.Research on Ground Movement Laws of Deep Mining in (邓涛，李天华，唐建新，等.基于声发射Kaiser效应的地应 Kailuan Mining Area Dissertation].Jiaozuo:Henan Polytechnic 力测量研究.现代矿业，2014(12)：13) University,2010 [15]Jia J H,Xing C H.Study on high reliability data-processing sys- (陈勇.开滦矿区深部开采地表移动规律的研究[学位论文]. tem for in-situ stress measurements.Coal Sci Technol,2015,43 焦作：河南理工大学，2010) (1):41 [4]Meng X,Xiao F K.Duan L Q.Analysis of destruction in mine (贾金河，邢长海.地应力测试数据高可靠性处理系统研究 deep tunnel.Coal Technol,2009,28(2):163 煤炭科学技术，2015,43(1)：41) (孟鑫，肖福坤，段立群.深部巷道围岩耦合变形机理研究 [16]Liu F,Hu B,Song D,et al.Inverse analysis on three-dimen- 煤炭技术，2009,28(2)：163) sional stress and in-situ stress measurement of Bangpu mining ar- [5]Liu S R.Safety Eraluation of Mine Water in Y Coal Mine Disser ea in Tibet.Min Res Dev,2015,35(3):47 tation].Taiyuan:North University of China,2013 (刘飞，胡斌，宋丹，等.西藏邦铺矿区地应力测量及三维地 (刘仕瑞.对兖矿集团Y煤矿突水的安全评价研究[学位论 应力反演分析.矿业研究与开发.，2015,35(3)：47) 文].太原：中北大学，2013) [17]Sun DS,Feng C J,Xu H B,et al.In-situ stress measurement [6]Lan H,Chen D K,Mao D B.Current status of deep mining and at deep borehole of Dataigou Iron Mine area and its application./ disaster prevention in China.Coal Sci Technol,2016,44(1):39 Central S Unin Sci Technol,2015,46(4):1384 (蓝航，陈东科，毛德兵.我国煤矿深部开采现状及灾害防治 (孙东生，丰成君，许洪斌，等.大台沟矿区深孔水压致裂原 分析.煤炭科学技术，2016,44(1)：39) 地应力测量及应用.中南大学学报（自然科学版），2015,46 [7]Cai M F.Application of rock mechanics in mining engineering in (4):1384) metal mines.Met Mine,2006(1):28 [18]Ge W F,Zhang F,Chen M,et al.Research on geostress meas- (蔡美峰.岩石力学在金属矿山采矿工程中的应用.金属矿 urement using DRA-Kaiser method in salt-gypsum formation. 山，2006(1)：28) Chin J Rock Mech Eng,2015,34(Suppl 1):3138 [8]Martin C D,Lanyon G W.Measurement of in-situ stress in weak (葛伟凤，张飞，陈勉，等.盐膏岩DRA-Kaiser地应力测试 rocks at Mont Terri Rock laboratory,Switzerland.Int Rock Mech 方法初探.岩石力学与工程学报，2015,34（增刊1）：3138) in Sci,2003,40(7-8):1077 [19]Peng R,Meng X R,Zhao G M,et al.Acoustic emission in-situ [9] Chistiansson R.The latest developments for in-situ rock stress stress testing of different lithology rock and its application.Cen- measuring techniques//Proceedings of the International Symposi- tral S Univ Sci Technol,2015,46(9):3377 um on In-situ Rock Stress.Trondheim,2006:3 (彭瑞，孟样瑞，赵光明，等.不同岩性岩石声发射地应力测 [10]Yan H P,Yin W L,Pan Y S,et al.The concentration region 试及其应用.中南大学学报（自然科学版），2015,46(9)： numerical simulation analysis and prediction research in Daans- 3377) han coal mine deep stress.Chin Geological Hazard Control, [20]Wang L J,Cui J W,Sun D S,et al.Determination of three-di- 2013,24(4):119 mensional in situ stresses by anelastic strain recovery in Teng- (阎海鹏，尹万蕾，潘一山，等。北京房山大安山煤矿深部地 chung scientific drilling hole.Acta Geoscientica Sinica,2016,37 应力数值模拟分析.中国地质灾害与防治学报，2013,24 (1):111 (4):119) (王连捷，崔军文，孙东生，等.腾冲科学钻探孔非弹性应变工程科学学报,第 39 卷,第 8 期 深部采动裂隙岩体的多因素鄄鄄多尺度耦合动力成灾机 理以及深部开采诱发型灾害的多元信息监测诊断预报 与防控体系. (3)对超深开采灾害研究的五个方向进行了具体 的建议性展望,探讨了该领域学术界和工程界未来研 究的重要落脚点,对超深开采安全机理及防灾减灾研 究具有一定的参考价值及促进作用. 参 考 文 献 [1] Wang H Y, Wang M. Research of deep mining question and de鄄 velopment prospects. Coal Technol, 2008, 27(1): 3 (王宏岩, 王猛. 深部矿井开采问题与发展前景研究. 煤炭技 术, 2008, 27(1): 3) [2] Zhao X D, Li Y H, Liu J P, et al. Study on microseismic activity in potential rockburst zone during deep excavation in Hongtoushan Mine. J Northeastern Univ Nat Sci, 2009, 30(9): 1330 (赵兴东, 李元辉, 刘建坡, 等. 红透山矿深部开采岩爆潜在 区微震活动性研究. 东北大学学报(自然科学版), 2009, 30 (9): 1330) [3] Chen Y. Research on Ground Movement Laws of Deep Mining in Kailuan Mining Area [Dissertation]. Jiaozuo: Henan Polytechnic University, 2010 (陈勇. 开滦矿区深部开采地表移动规律的研究[学位论文]. 焦作: 河南理工大学, 2010) [4] Meng X, Xiao F K, Duan L Q. Analysis of destruction in mine deep tunnel. Coal Technol, 2009, 28(2): 163 (孟鑫, 肖福坤, 段立群. 深部巷道围岩耦合变形机理研究. 煤炭技术, 2009, 28(2): 163) [5] Liu S R. Safety Evaluation of Mine Water in Y Coal Mine [Disser鄄 tation]. Taiyuan: North University of China, 2013 (刘仕瑞. 对兖矿集团 Y 煤矿突水的安全评价研究[学位论 文]. 太原: 中北大学, 2013) [6] Lan H, Chen D K,Mao D B. Current status of deep mining and disaster prevention in China. Coal Sci Technol, 2016, 44(1): 39 (蓝航, 陈东科, 毛德兵. 我国煤矿深部开采现状及灾害防治 分析. 煤炭科学技术, 2016, 44(1): 39) [7] Cai M F. Application of rock mechanics in mining engineering in metal mines. Met Mine, 2006(1): 28 (蔡美峰. 岩石力学在金属矿山采矿工程中的应用. 金属矿 山, 2006(1): 28) [8] Martin C D, Lanyon G W. Measurement of in鄄situ stress in weak rocks at Mont Terri Rock laboratory, Switzerland. Int J Rock Mech Min Sci, 2003, 40(7鄄8): 1077 [9] Chistiansson R. The latest developments for in鄄situ rock stress measuring techniques / / Proceedings of the International Symposi鄄 um on In鄄situ Rock Stress. Trondheim, 2006: 3 [10] Yan H P, Yin W L, Pan Y S, et al. The concentration region numerical simulation analysis and prediction research in Daans鄄 han coal mine deep stress. Chin J Geological Hazard Control, 2013, 24(4): 119 (阎海鹏, 尹万蕾, 潘一山, 等. 北京房山大安山煤矿深部地 应力数值模拟分析. 中国地质灾害与防治学报, 2013, 24 (4): 119) [11] Li H J, Li C H, Zhou Q, et al. In鄄situ stress measurement and distribution characteristics of Liguanji iron mine. Met Mine, 2012 (8): 15 (李洪军, 李长洪, 周钦, 等. 李官集铁矿地应力的测量与分 布特征研究. 金属矿山, 2012(8): 15) [12] Ji D, Ren F H, Peng C, et al. A stress interval classification method for calculating rock elastic parameters in in鄄situ stress measurement. Chin J Rock Mech Eng, 2014, 33 ( Suppl 1 ): 2728 (冀东, 任奋华, 彭超, 等. 地应力弹性参数计算的应力区间 分级方法研究. 岩石力学与工程学报, 2014, 33 (增刊 1): 2728) [13] Wang C H, Xing B R, Chen Y Q. Prediction of stress field of super鄄long deep鄄buried tunnel area and case analysis. Chin J Geotech Eng, 2014, 36(5): 955 (王成虎, 邢博瑞, 陈永前. 长大深埋隧道工程区地应力状 态预测与实例分析. 岩土工程学报, 2014, 36(5): 955) [14] Deng T, Li T H, Tang J X, et al. Research on the in鄄situ stress measurement based on the acoustic emission Kaiser effect. Mod Min, 2014(12): 13 (邓涛, 李天华, 唐建新, 等. 基于声发射 Kaiser 效应的地应 力测量研究. 现代矿业, 2014(12): 13) [15] Jia J H, Xing C H. Study on high reliability data鄄processing sys鄄 tem for in鄄situ stress measurements. Coal Sci Technol, 2015, 43 (1): 41 (贾金河, 邢长海. 地应力测试数据高可靠性处理系统研究. 煤炭科学技术, 2015, 43(1): 41) [16] Liu F, Hu B, Song D, et al. Inverse analysis on three鄄dimen鄄 sional stress and in鄄situ stress measurement of Bangpu mining ar鄄 ea in Tibet. Min Res Dev, 2015, 35(3): 47 (刘飞, 胡斌, 宋丹, 等. 西藏邦铺矿区地应力测量及三维地 应力反演分析. 矿业研究与开发, 2015, 35(3): 47) [17] Sun D S, Feng C J, Xu H B, et al. In鄄situ stress measurement at deep borehole of Dataigou Iron Mine area and its application. J Central S Univ Sci Technol, 2015, 46(4): 1384 (孙东生, 丰成君, 许洪斌, 等. 大台沟矿区深孔水压致裂原 地应力测量及应用. 中南大学学报(自然科学版), 2015, 46 (4): 1384) [18] Ge W F, Zhang F, Chen M, et al. Research on geostress meas鄄 urement using DRA鄄鄄 Kaiser method in salt鄄gypsum formation. Chin J Rock Mech Eng, 2015, 34(Suppl 1): 3138 (葛伟凤, 张飞, 陈勉, 等. 盐膏岩 DRA鄄鄄Kaiser 地应力测试 方法初探. 岩石力学与工程学报, 2015, 34(增刊 1): 3138) [19] Peng R, Meng X R, Zhao G M, et al. Acoustic emission in鄄situ stress testing of different lithology rock and its application. J Cen鄄 tral S Univ Sci Technol, 2015, 46(9): 3377 (彭瑞, 孟祥瑞, 赵光明, 等. 不同岩性岩石声发射地应力测 试及其应用. 中南大学学报(自然科学版), 2015, 46 (9): 3377) [20] Wang L J, Cui J W, Sun D S, et al. Determination of three鄄di鄄 mensional in situ stresses by anelastic strain recovery in Teng鄄 chung scientific drilling hole. Acta Geoscientica Sinica, 2016, 37 (1): 111 (王连捷, 崔军文, 孙东生, 等. 腾冲科学钻探孔非弹性应变 ·1136·