[1] ROSSMANITH H P,KNASMILLNER R E,DAEHNKE A,et al. Wave propagation,damage evolution and dynamic fracture extension. Part II. Blasting[J]. Materials Science,1996,32(4):403-410.
[2] 肖正学,张志呈,李端明. 初始应力场对爆破效果的影响[J]. 煤炭学报,1996(05):51-55.
XIAO Zheng-xue,ZHANG Zhicheng,LI Duanming. The influence of inntial stress field on blasting[J]. Journal of China Coal Sociey,1996(05):51-55.
[3] 刘殿书,王万富,杨吕俊,等. 初始应力条件下爆破机理的动光弹实验研究[J]. 煤炭学报,1999,(6):612-614.
LIU Dianshu,WANG Wanfu,YANG Lvjun,et al. Holophotoelasticity study on mechanism of blasting under initiative stress field[J]. Journal of China Coal Socirty,1999,(6):612-614.
[4] 谢源,刘庆林. 附加载荷下介质爆破特性的全息动光弹试验[J]. 工程爆破,2000,(2):11.
XIE Yuan,LIU Qinglin. Study on blasting characteristic of medium under high stress condition by dynamic holophotoelastic Method[J]. Engineering Blasting,2000,(2):11.
[5] 高全臣,赫建明,冯贵文,等. 高应力岩巷的控制爆破机理与技术[J]. 爆破,2003,(S1):52-55.
GAO Quan-chen,HE Jianming,FENG Guiwen,et al. Mechanism and technology of controlled blasting for high sress rock tunneling[J].Blasting,2003,(S1):52-55.
[6] 杨立云,马佳辉,王学东,等. 压应力场中爆生裂纹分布与扩展特征实验分析[J]. 爆炸与冲击,2017,37(2):262-268.
YANG Li-yun,MA Jiahui,WANG Xuedong,et al. Experimental study on blasting crack initiation and propagation behavior in compression stress field[J]. Explosion and Shock Waves,2017,37(2):262-268
[7] 杨立云,丁晨曦,郑立双,等. 初始静态压应力场中爆生裂纹的扩展行为[J]. 岩土工程学报,2018,40(7):1322-1327.
YANG Liyun,DING Chenxi,ZHENG Lishuang et al. Evolution of blasting cracks in different static compression fields[J]. Chinese Journal of Geotechnical Engineering ,2018,(7):1322-1327.
[8] 杨立云,杨仁树,许鹏,等. 初始压应力场对爆生裂纹行为演化效应的实验研究[J]. 煤炭学报,2013,38(3):404-410.
YANG Liyun,YANG Renshu,XU Peng,et al. Experimental study on the effect of initial compression stress field on blast-induced crack behaviors[J]. Journal of China Coal Society,2013,38(3):404-410.
[9] MA G W,AN X M. Numerical simulation of blasting-induced rock fractures[J]. International Journal of Rock Mechanics & Mining Sciences,2008,45(6):966-975.
[10] 刘艳,许金余. 地应力场下岩体爆体的数值模拟[J]. 岩土力学,2007,(11):2485-2488.
LIU Yan,XU Jinyu. Numerical simulation of explosion in rock mass under ground stress field[J]. Rock and Soil Mechenics,2007,(11):2485-2488.
[11] 白羽,朱万成,魏晨慧,等. 不同地应力条件下双孔爆破的数值模拟[J]. 岩土力学,2013,34(S1):466-471.
BAI Yu,ZHU Wancheng,WEI Chenhui,et al. Numerical simulation on two-hole blasting under different in-situ stress conditions[J]. Rock and Soil Mechanics,2013,34(S1):466-471.
[12] 魏晨慧,朱万成,白羽,等. 不同地应力条件下切缝药包爆破的数值模拟[J]. 爆炸与冲击,2016,(2):161-169.
WEI Chenhui,ZHU Wancheng,BAI Yu,et al. Numerical simulation on cutting seam cartridge blasting under different in-situ stress conditions[J]. Explosion and Shock Waves ,2016,(2):161-169.
[13] 张凤鹏,彭建宇,张鑫,等. 地应力对岩体爆破影响的数值模拟[J]. 金属矿山,2015,(12):15-18.
ZHANG Fengpeng,PENG Jianyu,ZHANG Xin,et al. Numerical Simulation of the Effect of In-situ Stress on Rock Blasting,[J]. Metal Mine,2015,(12):15-18.
[14] 杨仲豪,杨军,何成龙. 主动围压下岩石爆炸动态响应数值模拟[J]. 工程爆破,2017,(5):22-26.
YANG Zhonghao,YANG Jun,HE Chenglong. Numerical simulation of dynamic response of rock blasting under active confining pressure[J]. Engineering Blasting,2017,(5):22-26.
[15] 彭建宇,李元辉,张凤鹏,等. 单向静载下柱状药包爆破裂纹扩展规律及机制[J]. 中国矿业,2017,26(01):88-91.
PENG Jianyu,LI Yuanhui,ZHANG Fengpeng,et al. Crack propagation rule and mechanism of cylindrical blasting under uniaxial static load[J]. China Mining Magazine,2017,26(01):88-91.
[16] 肖思友,姜元俊,刘志祥,等. 高地应力下硬岩爆破破岩特性及能量分布研究[J].振动与冲击,2018,37(15):143-149.
XIAO Siyou,JIANG Yuanjun,LIU Zhixiang,et al. Hard rock blasting energy distribution and fragmentation characteristics under high earth stress[J]. Journal of Vibration and Shock,2018,37(15):143-149.
[17] CHONG K P,KURUPPU M D. New specimen for fracture toughness determination for rock and other materials[J]. International Journal of Fracture,1984,26(2):R59-R62.
[18] 邵鹏. 断续节理岩体中弹性波动力效应研究[M]. 徐州:中国矿业大学出版社,2005.
SHAO Peng. Research on the dynamic effect of elastic waves in discontinuous jointed rock mass[M]. Xuzhou:China University of Mining and Technology Press,2005. |