[1] HICKMAN S,SIBSON R,BRUHN R. Introduction to special section:mechanical involvement of fluids infaulting[J]. Journal of Geophysical Research,1995,100(B7):12 831–12 840.
[2] BROCB E. Changes in rock strength by water[C]// Proceedings of the 3rd ISRM Congress. Montreux:[s.n.],1979:71–75.
[3] 赵阳升. 矿山岩石流体力学[M]. 北京:煤炭工业出版社,1994:279–288.(ZHAO Yangsheng. Rock fluid mechanics in mine[M]. Beijing:China Coal Industry Publishing House,1994:279–288.(in Chinese))
[4] 蔡美峰,乔 兰,李华斌. 地应力测量原理和技术[M]. 北京:科学出版社,1995:1–27.(CAI Meifeng,QIAO Lan,LI Huabin. Rock stress measurement principles and techniques[M]. Beijing:Science Press,1995:1–27.(in Chinese))
[5] 赵阳升,万志军,康建荣. 高温岩体地热开发导论[M]. 北京:科学出版社,2004:149–164.(ZHAO Yangsheng,WAN Zhijun,KANG Jianrong. Introduction to geothermal extraction of hot dry rock[M]. Beijing:Science Press,2004:149–164.(in Chinese))
[6] 杨春和,王贵宾,王 驹,等. 甘肃北山预选区岩体力学与渗流特性研究[J]. 岩石力学与工程学报,2006,25(4):825–832.(YANG Chunhe,WANG Guibin,WANG Ju,et al. Study of rock mass mechanics and seepage characteristics of candidate site-Beishan,Gansu Province[J]. Chinese Journal of Rock Mechanics and Engineering,2006,25(4):825–832.(in Chinese))
[7] TINAWI R,GUIZANI L. Formulation of hydrodynamic pressures in cracks due to earthquakes in concrete dams[J]. Earthquake Engineering and Structural Dynamics,1994,23(7):699–715.
[8] BRUHWILER E,SAOUMA V E. Water fracture interaction in concrete-part i:fracture properties[J]. ACI Materials Journal,1995,92(3):296–303.
[9] BRUHWILER E,SAOUMA V E. Water fracture interaction in concrete-part II:hydrostatic pressure in cracks[J]. ACI Materials Journal,1995,92(4):383–390.
[10] PAPANASTASIOU P. An efficient algorithm for propagating fluid driven fractures[J]. Computational Mechanics,1999,24(4):258–267.
[11] BLAIR S C,THORPE R K,HEUZE F E,et al. Laboratory observations of the effect of geological discontinuities on hydro fracture propagation[C]// Proceedings of the 30th US Symposium on Rock Mechanics. Morgantown:[s. n.],1989:433–450.
[12] VAN DEN HOKE P J,VAN DEN BERG J T M,SHLYAPOBERSKY J. Theoretical and experimental investigation of rock dilatancy near the tip of a propagating hydraulic fracture[C]// Proceedings of the 34th US Symposium on Rock Mechanics. Madison:[s. n.],1993:351–354.
[13] 陈卫忠,朱维申,罗超文. 万家寨引黄工程总干一、二级泵站水力劈裂试验研究[J]. 岩土力学,2001,22(1):26–28.(CHEN Weizhong,ZHU Weishen,LUO Chaowen. Hydraulic jacking tests at GMPS1 and GMPS2 of Wanjiazhai,Shanxi Yellow River Diversion Project[J]. Rock and Soil Mechanics,2001,22(1):26–28.(in Chinese))
[14] 王 城,邓安福. 岩体节理内压致裂解析研究[J]. 岩石力学与工程学报,2002,21(5):640–643.(WANG Cheng,DENG Anfu. Analytical study on fracture of jointed rock mass under internal pressure[J]. Chinese Journal of Rock Mechanics and Engineering,2002,21(5):640–643.(in Chinese))
[15] 黄润秋,王贤能,陈龙生. 深埋隧道涌水过程的水力劈裂作用分析[J]. 岩石力学与工程学报,2000,19(5):573–576.(HUANG Runqiu,WANG Xianneng,CHEN Longsheng. Hydro-splitting off analysis on underground water in deep-lying tunnels and its effect on water gushing out[J]. Chinese Journal of Rock Mechanics and Engineering,2000,19(5):573–576.(in Chinese))
[16] 赵延林,曹 平,林 杭,等. 渗透压作用下压剪岩石裂纹流变断裂贯通机制及破坏准则探讨[J]. 岩土工程学报,2008,30(4):511–517.(ZHAO Yanlin,CAO Ping,LIN Hang,et al. Rhelogic fracture mechanism and failure criterion of rock cracks under compressive-shear load with seepage pressure[J]. Chinese Journal of Geotechnical Engineering,2008,30(4):511–517.(in Chinese))
[17] 杨 慧,江学良,曹 平. 渗透水压下岩体多裂纹相互作用的计算[J]. 土木建筑与环境工程,2011,33(6):19–24.(YANG Hui,JIANG Xueliang,CAO Ping. A new method for analysis of interaction of rock mass with multiple cracks under seepage pressure[J]. Journal of Civil,Architectural and Environmental Engineering,2011,33(6):19–24(in Chinese))
[18] 高塞红,曹 平,汪胜莲. 水压力作用下岩石中I和II型裂纹断裂准则[J]. 中南大学学报:自然科学版,2012,43(3):1 087–1 091. (GAO Saihong,CAO Ping,WANG Shenglian. Analysis of fracture criterion of I and II type of crack in rock masses under hydraulic pressure[J]. Journal of Central South University:Science and Technology,2012,43(3):1 087–1 091.(in Chinese))
[19] 刘涛影,曹 平,章立峰,等. 高渗压条件下压剪岩石裂纹断裂损伤演化机制研究[J]. 岩土力学,2012,33(6):1 801–1 808.(LIU Taoying,CAO Ping,ZHANG Lifeng,et al. Study of fracture damage evolution mechanism of compression-shear rock cracks under high seepage pressure[J]. Rock and Soil Mechanics,2012,33(6):1 801– 1 808.(in Chinese))
[20] 李世愚,和泰名,尹祥础. 岩石断裂力学导论[M]. 合肥:中国科学技术大学出版社,2010:99–114.(LI Shiyu,HE Taiming,YIN Xiangchu. Introduction of rock fracture mechanics[M]. Hefei:University of Science and Technology of China Press,2010:99–114.(in Chinese))
[21] 樊蔚勋. 论复合型脆断的周向应变因子准则[J]. 应用数学和力学,1982,3(2):211–224.(FAN Weixun. On the circumferential strain factor criterion of mixed mode brittle fracture[J]. Applied Mathematics and Mechanics,1982,3(2):211–224.(in Chinese))
[22] 汪懋骅. 复合型断裂应变准则[J]. 固体力学学报,1982,(4):571–581.(WANG Maohua. A mixed fracture strain criterion[J]. Acta Mechanica Solida Sinica,1982,(4):571–581.(in Chinese))
[23] 陈国庆,苏国韶,江 权,等.大型地下洞室高边墙的拉应变准则研究[J]. 岩土力学,2011,32(增1):603–608.(CHEN Guoqing,SU Guoshao,JIANG Quan,et al. Study of tensile strain criterion of high sidewall in large underground caverns[J]. Rock and Soil Mechanics,2011,32(Supp.1):603–608.(in Chinese))
[24] 黎立云,黎振兹,孙宗硕. 岩石的复合型断裂试验及分析[J]. 岩石力学与工程学报,1994,13(2):134–140.(LI Liyun,LI Zhenzi,SUN Zonqi. Experiments research and theoretical analyses in brittle fracture of rock under mixed-mode loads[J]. Chinese Journal of Rock Mechanics and Engineering,1994,13(2):134–140.(in Chinese))
[25] 张镜剑,郑士山. 混凝土I-II复合型V型切口断裂判据的初步探讨[J]. 华北水利水电学院学报,1986,(2):1–12.(ZHANG Jingjian,ZHENG Shishan. On the criterion of I-II combined mode fracture for V-notches in concrete[J]. Journal of North China Institute of Water Conservancy and Hydropower,1986,(2):1–12.(in Chinese))
[26] WILLIAMS M L. On the stress distribution at the base of a stationary crack[J]. Journal of Applied Mechanics,1957,24(1):109–114.
[27] SMITH D J,AYATOLLAHI M R,PAVIER M J. On the consequences of T-stress in elastic brittle fracture[J]. Proceedings of the Royal Society A,2006,462:2 415–2 437.
[28] SHLYANNIKOV V N. T-stress for crack paths in test specimens subject to mixed mode loading[J]. Engineering Fracture Mechanics,2013,108:3–18.
[29] LU K,MESHII T. Three-dimensional T-stresses for three-point-bend specimens with large thickness variation[J]. Engineering Fracture Mechanics,2014,116:197–203.
[30] MIRSAYAR MM. On fracture of kinked interface cracks – the role of T-stress[J]. Materials and Design,2014,61:117–123.
[31] AYATOLLAHI M,ALIHA M. On the use of Brazilian disc specimen for calculating mixed mode I-II fracture toughness of rock materials[J]. Engineering Fracture Mechanics,2008,75:4 631–4 641.
[32] LABUDOVIC V. The effect of Poisson's ratio on fracture height[J]. Journal of Petroleum Technology,1984,36(2):287–290.
[33] 姜 浒,陈 勉,张广清,等. 定向射孔对水力裂缝起裂与延伸的影响[J]. 岩石力学与工程学报,2009,28(7):1 321–1 326.(JIANG Hu,CHEN Mian,ZHANG Guangqing,et al. Impact of oriented perforation on hydraulic fracture initiation and propagation[J]. Chinese Journal of Rock Mechanics and Engineering,2009,28(7):1 321– 1 326.(in Chinese))
[34] WILLIANS J G,EWING P D. Fracture under complex stress-the angled crack problem[J]. International Journal of Fracture Mechanics,1984,26(4):346–351.
[35] UEDA Y,IKEDA K,YAO T,et al. Characteristics of brittle fracture under general combined modes including those under bi-axial tensile loads[J]. Engineering Fracture Mechanics,1983,18(6):1 131–1 158.