·1138· 工程科学学报，第39卷，第8期 (徐颖，袁璞.爆炸荷载作用下深部围岩分区破裂模型试验 29(Suppl2):4082 研究.岩石力学与工程学报.2015,34（增刊2）：3844) (吴顺川，周哈，高斌。卸载岩爆试验及P℉CD数值模拟研 [42]Xie H P,Zhou H W,Xue D J,et al.Research and considera- 究.岩石力学与工程学报，2010,29（增刊2）：4082) tion on deep coal mining and critical mining depth.China Coal [53]Jia Y P,Lui Q,Shang Y Q.Rockburst prediction using particle Soc,2012,37(4):535 swarm optimization algorithm and general regression neural net- (谢和平，周宏伟，薛东杰，等.煤炭深部开采与极限开采深 work.Chin J Rock Mech Eng,2013,32(2):343 度的研究与思考.煤炭学报，2012,37(4)：535) (贾义鹏，吕庆，尚岳全.基于粒子群算法和广义回归神经 [43]Chen W H,Huang HL,Ma P.Test study of deformation char- 网络的岩爆预测.岩石力学与工程学报，2013,32(2)： acteristics of deep rock mass in Jinping II hydropower station un- 343) der ultra-high pressure.Chin J Rock Mech Eng,2015,34(Sup- [54]Shang Y J,Zhang J J,Fu B J.Analyses of three parameters for pl2):3930 strain mode rockburst and expression of rockburst potential.Chin (陈文华，黄火林，马鹏.超高应力作用下锦屏二级水电站 J Rock Mech Eng,2013,32(8):1520 深部岩体变形特性试验研究.岩石力学与工程学报，2015， (尚彦军，张镜剑，傅冰骏.应变型岩爆三要素分析及岩爆 34(增刊2)：3930) 势表达.岩石力学与工程学报，2013,32(8)：1520) [44]Qi X H.Zhang D M.Application of bore-hole TV exploration [55]Cai M F,Ji D,Guo Q F.Study of rockburst prediction based on technology to estimation of mechanical parameters of deep rock in-situ stress measurement and theory of energy accumulation mass by quantitative GSI system.China Saf Sci J,2016,26 caused by mining disturbance.Chin Rock Mech Eng,2013,32 (4):131 (10):1973 (齐消寒，张东明.钻孔成像在GSI系统估算深部岩体力学 (蔡美峰，冀东，郭奇峰.基于地应力现场实测与开采扰动 参数中的应用.中国安全科学学报，2016,26(4)：131) 能量积聚理论的岩爆预测研究.岩石力学与工程学报， [45]Zuo J P,Li S C,Wang Z F.Macro/Meso mechanical behavior of 2013,32(10):1973) multicrack rock mass under high stress and unloading coupled [56]Qian Q H.Definition,mechanism,classification and quantitative effects.Sci Technol Innoration Herald,2016(13):176 forecast model for rockburst and pressure bump.Rock Soil Mech, (左建平，李树忧，王兆丰.高应力强卸荷作用下多组裂隙 2014.35(1):1 岩体宏细观力学行为.科技创新导报，2016(13)：176) (钱七虎.岩爆，冲击地压的定义、机制、分类及其定量预测 [46]Zhang N B.Mechanism and Engineering Practice of Fault Rock- 模型.岩土力学，2014,35(1)：1) burst Dissertation ]Beijing:China Coal Research Institute [57]Gu JC.Fan JQ.Kong F L,et al.Mechanism of ejective rock- CCRI,2014 burst and model testing technology.Chin J Rock Mech Eng, (张宁博.断层冲击地压发生机制与工程实践[学位论文] 2014,33(6):1081 北京：煤炭科学研究总院，2014) (顾金才，范俊奇，孔福利，等.抛掷性岩爆机制与模型试验 [47]Yao G H.Inrestigation of Rockburst Prediction and Its Engineer- 技术岩石力学与工程学报，2014,33(6)：1081) ing Application in Deep Mining Dissertation].Wuhan:Wuhan [58]Wang B,Li X B.Ma C D.et al.Principle and preliminary ap- University of Science and Technology,2008 plication of combined static-dynamic support to rockburst disaster (姚高辉.金属矿山深部开采岩爆预测及工程应用研究[学 controlling.Chin J Rock Mech Eng,2014,33(6):1169 位论文].武汉：武汉科技大学，2008) (王斌，李夕兵，马春德，等.岩爆灾害控制的动静组合支护 [48]Vesela V.The investigation of rockburst focal mechanisms at La- 原理及初步应用.岩石力学与工程学报，2014,33(6)： zy coal mine,Czech Republic.Int Rock Mech Min Sci Geomech 1169) Abstract,1996,33(8):380A [59]He M C.Liu D Q,Gong W L,et al.Development of a testing [49]Mutke G,Dubifiski J,Lurka A.New criteria to assess seismic system for impact rockbursts.Chin J Rock Mech Eng,2014,33 and rock burst hazard in coal mines.Arch Min Sci,2015,60 (9):1729 (3):743 (何满潮，刘冬桥，宫伟力，等.冲击岩爆试验系统研发及试 [50]He MC,Miao J L,Li D J,et al.Experimental study on rock- 验.岩石力学与工程学报，2014,33(9)：1729) burst processes of granite specimen at great depth.Chin Rock [60]Liu L L,Zhang S H,Wang X M,et al.Application of target ap- Mech Eng,2007,26(5):865 proaching with variable weight in prediction of rockburst intensi- (何满潮，苗金丽，李德建，等.深部花岗岩试样岩爆过程实 ty.Explosion and Shock Wares,2015,35(1):43 验研究.岩石力学与工程学报，2007,26(5)：865) (刘磊磊，张绍和，王晓密，等.变权靶心贴近度在岩爆烈度 [51]Miao JL,He M C,Li D J,et al.Acoustic emission characteris- 预测中的应用.爆炸与冲击，2015,35(1)：43) tics of granite under strain rockburst test and its micro-fracture [61]Ma CC,Li T B,Chen G Q,et al.A micro particle model for mechanism.Chin J Rock Mech Eng,2009,28(8):1593 hard brittle rock and the effect of unloading rock burst.Chin I (苗金丽，何满潮，李德建，等.花岗岩应变岩爆声发射特征 Rock Mech Eng,2015,34(2):217 及微观断裂机制.岩石力学与工程学报，2009,28(8)： (马春驰，李天斌，陈国庆，等.硬脆岩石的微观颗粒模型及 1593) 其卸荷岩爆效应研究.岩石力学与工程学报，2015,34(2)： [52]Wu S C.Zhou Y,Gao B.Study of unloading tests of rock burst 217) and PFC numerical simulation.Chin J Rock Mech Eng,2010, [62]Wang Y C,Jing H W,Zhang Q,et al.A normal cloud model-工程科学学报,第 39 卷,第 8 期 (徐颖, 袁璞. 爆炸荷载作用下深部围岩分区破裂模型试验 研究. 岩石力学与工程学报, 2015, 34(增刊 2): 3844) [42] Xie H P, Zhou H W, Xue D J, et al. Research and considera鄄 tion on deep coal mining and critical mining depth. J China Coal Soc, 2012, 37(4): 535 (谢和平, 周宏伟, 薛东杰, 等. 煤炭深部开采与极限开采深 度的研究与思考. 煤炭学报, 2012, 37(4): 535) [43] Chen W H , Huang H L, Ma P. Test study of deformation char鄄 acteristics of deep rock mass in Jinping II hydropower station un鄄 der ultra鄄high pressure. Chin J Rock Mech Eng, 2015, 34(Sup鄄 pl 2): 3930 (陈文华, 黄火林, 马鹏. 超高应力作用下锦屏二级水电站 深部岩体变形特性试验研究. 岩石力学与工程学报, 2015, 34(增刊 2): 3930) [44] Qi X H, Zhang D M. Application of bore鄄hole TV exploration technology to estimation of mechanical parameters of deep rock mass by quantitative GSI system. China Saf Sci J, 2016, 26 (4): 131 (齐消寒, 张东明. 钻孔成像在 GSI 系统估算深部岩体力学 参数中的应用. 中国安全科学学报, 2016, 26(4): 131) [45] Zuo J P, Li S C, Wang Z F. Macro / Meso mechanical behavior of multicrack rock mass under high stress and unloading coupled effects. Sci Technol Innovation Herald, 2016(13): 176 (左建平, 李树忱, 王兆丰. 高应力强卸荷作用下多组裂隙 岩体宏细观力学行为. 科技创新导报, 2016(13):176) [46] Zhang N B. Mechanism and Engineering Practice of Fault Rock鄄 burst [ Dissertation ]. Beijing: China Coal Research Institute CCRI, 2014 (张宁博. 断层冲击地压发生机制与工程实践[学位论文]. 北京: 煤炭科学研究总院, 2014) [47] Yao G H. Investigation of Rockburst Prediction and Its Engineer鄄 ing Application in Deep Mining [Dissertation]. Wuhan: Wuhan University of Science and Technology, 2008 (姚高辉. 金属矿山深部开采岩爆预测及工程应用研究[学 位论文]. 武汉: 武汉科技大学, 2008) [48] Vesela V. The investigation of rockburst focal mechanisms at La鄄 zy coal mine, Czech Republic. Int J Rock Mech Min Sci Geomech Abstract, 1996, 33(8): 380A [49] Mutke G, Dubi俳ski J, Lurka A. New criteria to assess seismic and rock burst hazard in coal mines. Arch Min Sci, 2015, 60 (3): 743 [50] He M C, Miao J L, Li D J, et al. Experimental study on rock鄄 burst processes of granite specimen at great depth. Chin J Rock Mech Eng, 2007, 26(5): 865 (何满潮, 苗金丽, 李德建, 等. 深部花岗岩试样岩爆过程实 验研究. 岩石力学与工程学报, 2007, 26(5): 865) [51] Miao J L, He M C, Li D J, et al. Acoustic emission characteris鄄 tics of granite under strain rockburst test and its micro鄄fracture mechanism. Chin J Rock Mech Eng, 2009, 28(8): 1593 (苗金丽, 何满潮, 李德建, 等. 花岗岩应变岩爆声发射特征 及微观断裂机制. 岩石力学与工程学报, 2009, 28 ( 8 ): 1593) [52] Wu S C, Zhou Y, Gao B. Study of unloading tests of rock burst and PFC 3D numerical simulation. Chin J Rock Mech Eng, 2010, 29(Suppl 2): 4082 (吴顺川, 周喻, 高斌. 卸载岩爆试验及 PFC 3D 数值模拟研 究. 岩石力学与工程学报, 2010, 29(增刊 2): 4082) [53] Jia Y P, L俟 Q, Shang Y Q. Rockburst prediction using particle swarm optimization algorithm and general regression neural net鄄 work. Chin J Rock Mech Eng, 2013, 32(2): 343 (贾义鹏, 吕庆, 尚岳全. 基于粒子群算法和广义回归神经 网络的岩爆预测. 岩石力学与工程学报, 2013, 32 ( 2 ): 343) [54] Shang Y J, Zhang J J, Fu B J. Analyses of three parameters for strain mode rockburst and expression of rockburst potential. Chin J Rock Mech Eng, 2013, 32(8): 1520 (尚彦军, 张镜剑, 傅冰骏. 应变型岩爆三要素分析及岩爆 势表达. 岩石力学与工程学报, 2013, 32(8): 1520) [55] Cai M F, Ji D, Guo Q F. Study of rockburst prediction based on in鄄situ stress measurement and theory of energy accumulation caused by mining disturbance. Chin J Rock Mech Eng, 2013, 32 (10): 1973 (蔡美峰, 冀东, 郭奇峰. 基于地应力现场实测与开采扰动 能量积聚理论的岩爆预测研究. 岩石力学与工程学报, 2013, 32(10): 1973) [56] Qian Q H. Definition, mechanism, classification and quantitative forecast model for rockburst and pressure bump. Rock Soil Mech, 2014, 35(1): 1 (钱七虎. 岩爆、冲击地压的定义、机制、分类及其定量预测 模型. 岩土力学, 2014, 35(1): 1) [57] Gu J C, Fan J Q, Kong F L, et al. Mechanism of ejective rock鄄 burst and model testing technology. Chin J Rock Mech Eng, 2014, 33(6): 1081 (顾金才, 范俊奇, 孔福利, 等. 抛掷性岩爆机制与模型试验 技术. 岩石力学与工程学报, 2014, 33(6): 1081) [58] Wang B, Li X B, Ma C D, et al. Principle and preliminary ap鄄 plication of combined static鄄dynamic support to rockburst disaster controlling. Chin J Rock Mech Eng, 2014, 33(6): 1169 (王斌, 李夕兵, 马春德, 等. 岩爆灾害控制的动静组合支护 原理及初步应用. 岩石力学与工程学报, 2014, 33 ( 6 ): 1169) [59] He M C, Liu D Q, Gong W L, et al. Development of a testing system for impact rockbursts. Chin J Rock Mech Eng, 2014, 33 (9): 1729 (何满潮, 刘冬桥, 宫伟力, 等. 冲击岩爆试验系统研发及试 验. 岩石力学与工程学报, 2014, 33(9): 1729) [60] Liu L L, Zhang S H, Wang X M, et al. Application of target ap鄄 proaching with variable weight in prediction of rockburst intensi鄄 ty. Explosion and Shock Waves, 2015, 35(1): 43 (刘磊磊, 张绍和, 王晓密, 等. 变权靶心贴近度在岩爆烈度 预测中的应用. 爆炸与冲击, 2015, 35(1): 43) [61] Ma C C, Li T B, Chen G Q, et al. A micro particle model for hard brittle rock and the effect of unloading rock burst. Chin J Rock Mech Eng, 2015, 34(2): 217 (马春驰, 李天斌, 陈国庆, 等. 硬脆岩石的微观颗粒模型及 其卸荷岩爆效应研究. 岩石力学与工程学报, 2015, 34(2): 217) [62] Wang Y C, Jing H W, Zhang Q, et al. A normal cloud model鄄 ·1138·