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.722 工程科学学报,第42卷.第6期 mechanical behaviors of rocks under the condition of high ground Rock Eng,2017,50(7):1883 pressure in the depths.Adv Mech,2005,35(1):91 [22]Chang S H,Lee C I,Lee Y K.An experimental damage model and (周宏伟,谢和平,左建平.深部高地应力下岩石力学行为研究 its application to the evaluation of the excavation of the excavation 进展.力学进展2005,35(1):91) damage zone.Rock Mech Rock Eng,2007,40(3):245 [12]Li C H,Bu L,Wei X M,et al.Current status and future trends of [23]Liu N,Zhang C S,Chu W J.Depth of fracture and damage in deep mining safety mechanism and disaster prevention and control. deep-buried surrounding rock and bolt length design.Chin Rock Chin J Eng,2017,39(8:1129 Mech Eng,2015,34(11):2278 (李长洪,卜磊,魏晓明,等.深部开采安全机理及灾害防控现状 (刘宁,张春生,褚卫江.深埋围岩陂裂损伤深度分析与锚杆长 与态势分析.工程科学学报,2017,39(8):1129) 度设计.岩石力学与工程学报,2015,34(11):2278) [13]Tang C A.Catastrophe in Rock Unstable Failure.Beijing:China [24]Li L C,Tang C A,Wang S Y,et al.A coupled thermo-hydrologic- Coal Industry Publishing House,1993 mechanical damage model and associated application in a stability (唐春安.岩石破裂过程中的灾变.北京:煤炭工业出版社, analysis on a rock pillar.Tunnell Undergr Space Technol,2013 1993) 34:38 [14]Tang C A,Liu H,Lee P KK,et al.Numerical studies of the [25]Zhang Y J,Xu T.Hydro-mechanical coupled analysis of the influence of microstructure on rock failure in uniaxial compression variable permeability coefficient of fractured rock mass.Appl Part I:effect of heterogeneity.Int J Rock Mech Min Sci,2000. Mech Mater,2013,477-478:531 37(4):555 [26]Ma T H,Zhang W D,Xu T.Damage and failure mechanism of [15]Tang C A,Tham L G,Lee P KK,et al.Coupled analysis of flow, tunnels in jointed rock mass.J Northeast Univ (Nat Sci),2013, stress and damage (FSD)in rock failure.Int Rock Mech Min Sci, 34(10):1485 2002,39(4):477 (马天辉,张文东,徐涛.节理岩体中隧洞围岩的损伤破坏机理 [16]Liu L Y,Zhu W C,Wei C H,et al.Microcrack-based 东北大学学报:自然科学版,2013,34(10):1485) geomechanical modeling of rock-gas interaction during [27]Liu L Y,Li L C,Elsworth D,et al.The impact of oriented supercritical CO fracturing.J Petrol Sci Eng,2018,164:91 [17]Liu L Y,Ji H G,Elsworth D,et al.Dual-damage constitutive perforation on fracture propagation and complexity in hydraulic model to define thermal damage in rock.Int Rock Mech Min Sci. fracturing.Processes,2018,6(11):213 2020.126:104185 [28]Zhu W C,Tang CA,Yang T H,et al.Constitutive relationship of [18]Yang TH,Tham LG,Tang CA,et al.Influence of heterogeneity mesoscopic elements used in RFPA and its validations.Chin of mechanical properties on hydraulic fracturing in permeable Rock Mech Eng,2003,22(1):24 rocks.Rock Mech Rock Eng,2004,37(4):251 (朱万成,唐春安,杨天鸿,等.岩石破裂过程分析(RFPA四系统 [19]Hoek E,Martin C D.Fracture initiation and propagation in intact 的细观单元本构关系及验证.岩石力学与工程学报,2003 rock-a review.J Rock Mech Geotech Eng,2014,6(4):287 22(1):24) [20]Qian Q H.Challenges faced by underground projects construction [29]Zhu WC,Liu L Y,Liu J S,et al.Impact of gas adsorption-induced safety and countermeasures.Chin J Rock Mech Eng,2012, coal damage on the evolution of coal permeability.Int J Rock 31(10):1945 Mech Min Sci,2018,101:89 (钱七虎.地下工程建设安全面临的挑战与对策.岩石力学与工 [30]Yu R S,Yang Y,Xu DL.Study on the application of Hoek-Brown 程学报,2012,31(10):1945) strength criterion in estimating mechanics parameters of deep rock [21]Li H B,Liu M C,Xing W B,et al.Failure mechanisms and mass.J Yangte River Sci Res Inst,2018,35(1):123 evolution assessment of the excavation damaged zones in a large- (於汝山,杨宜,许冬丽.Hoek-Browni强度准则在深部岩体力学 scale and deeply buried underground powerhouse.Rock Mech 参数估算中的应用研究.长江科学院院报,2018,35(1):123)mechanical behaviors of rocks under the condition of high ground pressure in the depths. Adv Mech, 2005, 35(1): 91 (周宏伟, 谢和平, 左建平. 深部高地应力下岩石力学行为研究 进展. 力学进展, 2005, 35(1):91) Li C H, Bu L, Wei X M, et al. Current status and future trends of deep mining safety mechanism and disaster prevention and control. Chin J Eng, 2017, 39(8): 1129 (李长洪, 卜磊, 魏晓明, 等. 深部开采安全机理及灾害防控现状 与态势分析. 工程科学学报, 2017, 39(8):1129) [12] Tang C A. Catastrophe in Rock Unstable Failure. Beijing: China Coal Industry Publishing House, 1993 (唐春安. 岩石破裂过程中的灾变. 北京: 煤炭工业出版社, 1993) [13] Tang  C  A,  Liu  H,  Lee  P  K  K,  et  al.  Numerical  studies  of  the influence of microstructure on rock failure in uniaxial compression -  Part  I:  effect  of  heterogeneity. Int J Rock Mech Min Sci,  2000, 37(4): 555 [14] Tang C A, Tham L G, Lee P K K, et al. Coupled analysis of flow, stress and damage (FSD) in rock failure. Int J Rock Mech Min Sci, 2002, 39(4): 477 [15] Liu  L  Y,  Zhu  W  C,  Wei  C  H,  et  al.  Microcrack-based geomechanical  modeling  of  rock-gas  interaction  during supercritical CO2 fracturing. J Petrol Sci Eng, 2018, 164: 91 [16] Liu  L  Y,  Ji  H  G,  Elsworth  D,  et  al.  Dual-damage  constitutive model to define thermal damage in rock. Int J Rock Mech Min Sci, 2020, 126: 104185 [17] Yang T H, Tham L G, Tang C A, et al. Influence of heterogeneity of  mechanical  properties  on  hydraulic  fracturing  in  permeable rocks. Rock Mech Rock Eng, 2004, 37(4): 251 [18] Hoek E, Martin C D. Fracture initiation and propagation in intact rock-a review. J Rock Mech Geotech Eng, 2014, 6(4): 287 [19] Qian Q H. Challenges faced by underground projects construction safety  and  countermeasures. Chin J Rock Mech Eng,  2012, 31(10): 1945 (钱七虎. 地下工程建设安全面临的挑战与对策. 岩石力学与工 程学报, 2012, 31(10):1945) [20] Li  H  B,  Liu  M  C,  Xing  W  B,  et  al.  Failure  mechanisms  and evolution assessment of the excavation damaged zones in a large￾scale  and  deeply  buried  underground  powerhouse. Rock Mech [21] Rock Eng, 2017, 50(7): 1883 Chang S H, Lee C I, Lee Y K. An experimental damage model and its application to the evaluation of the excavation of the excavation damage zone. Rock Mech Rock Eng, 2007, 40(3): 245 [22] Liu  N,  Zhang  C  S,  Chu  W  J.  Depth  of  fracture  and  damage  in deep-buried surrounding rock and bolt length design. Chin J Rock Mech Eng, 2015, 34(11): 2278 (刘宁, 张春生, 褚卫江. 深埋围岩破裂损伤深度分析与锚杆长 度设计. 岩石力学与工程学报, 2015, 34(11):2278) [23] Li L C, Tang C A, Wang S Y, et al. A coupled thermo-hydrologic￾mechanical damage model and associated application in a stability analysis  on  a  rock  pillar. Tunnell Undergr Space Technol,  2013, 34: 38 [24] Zhang  Y  J,  Xu  T.  Hydro-mechanical  coupled  analysis  of  the variable  permeability  coefficient  of  fractured  rock  mass. Appl Mech Mater, 2013, 477-478: 531 [25] Ma  T  H,  Zhang  W  D,  Xu  T.  Damage  and  failure  mechanism  of tunnels  in  jointed  rock  mass. J Northeast Univ (Nat Sci),  2013, 34(10): 1485 (马天辉, 张文东, 徐涛. 节理岩体中隧洞围岩的损伤破坏机理. 东北大学学报: 自然科学版, 2013, 34(10):1485) [26] Liu  L  Y,  Li  L  C,  Elsworth  D,  et  al.  The  impact  of  oriented perforation  on  fracture  propagation  and  complexity  in  hydraulic fracturing. Processes, 2018, 6(11): 213 [27] Zhu W C, Tang C A, Yang T H, et al. Constitutive relationship of mesoscopic  elements  used  in  RFPA2D and  its  validations. Chin J Rock Mech Eng, 2003, 22(1): 24 (朱万成, 唐春安, 杨天鸿, 等. 岩石破裂过程分析(RFPA2D)系统 的细观单元本构关系及验证. 岩石力学与工程学报, 2003, 22(1):24) [28] Zhu W C, Liu L Y, Liu J S, et al. Impact of gas adsorption-induced coal  damage  on  the  evolution  of  coal  permeability. Int J Rock Mech Min Sci, 2018, 101: 89 [29] Yu R S, Yang Y, Xu D L. Study on the application of Hoek-Brown strength criterion in estimating mechanics parameters of deep rock mass. J Yangtze River Sci Res Inst, 2018, 35(1): 123 (於汝山, 杨宜, 许冬丽. Hoek-Brown强度准则在深部岩体力学 参数估算中的应用研究. 长江科学院院报, 2018, 35(1):123) [30] · 722 · 工程科学学报,第 42 卷,第 6 期
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