条形药包硐室控制爆破仿真研究及其在高等级路基工程中的应用
|
摘要
20世纪80年代以来,我国高等级公路、高速铁路等基础设施的建设取得了举世瞩目的成就,有效地促进了国民经济和社会的发展。特别是近三年来,我国的高速公路、高速铁路等基础设施建设更呈现出无限生机。
在高速公路、高速铁路路基工程施工中,必然会遇到大量石方爆破施工难题。国内外许多学者曾对条形药包硐室爆破进行了大量的研究工作,但由于测试手段和数学模型研究等方面的局限性,致使条形药包实验和理论研究均未取得实质性的突破,从而限制了条形药包硐室爆破技术的应用和推广。
论文结合路基工程爆破实践,以“条形药包硐室控制爆破仿真研究及其在高等级路基工程中的应用”为题,运用全息动光弹和全息干涉法等激光技术对条形药包硐室控制爆破模型进行实验研究,同时采用DYNA-2D、DYNA-3D软件进行爆破模型仿真分析,取得了如下成果:
(1) 在前人研究的基础上,建立了路基工程条形药包硐室控制爆破“长抗比η”与装药量Q之间的计算公式Q=e·K·f(n)·W~3·η,表明当e,K,n,W等基本参数确定时,Q与η成线性关系。
(2) 建立了三维动态散光光弹性爆破实验系统,首次对条形药包一端起爆、两端同时起爆、中点起爆的爆破模型进行研究,得到3组模型4个时刻的动态应力场条纹图,并得出:从全应力场的强度、均匀性综合考虑,两端同时起爆药包的爆破效果最好,中点起爆效果次之,一端起爆效果最差。
(3) 对等比例的路基工程爆破模型进行了激光全息干涉法实验,得到了1组模型3个时刻的动态位移场条纹图,位移场分析结果表明:任意时刻,条形药包中垂线上的极值位移都是全场最大位移值,该值比其它剖面的对应值大3倍以上,且其平均离面位移也最大。
(4) 在低爆速(v:800 m/s),中爆速(v=3600 m/s),高爆速(v=6100 m/s)情况下,运用DYNA-2D程序对条形药包分别在一端、两端和中间起爆的爆炸场特征进行仿真研究,得到了相应的应力场及
Since the 1980s, conspicuous achievements have been gained in the construction of the infrastructure, such as highways and high-speed railways, thus they effectively promoted the development of the economy and society in our country. Especially in the recent three years, such infrastructure has exhibited its infinite vitalityUndoubtedly, numerous problems concerning the rock blasting of the subgrade will arise in the process of the construct of the highways and high-speed railways. A lot of researches have been done on the coyote blasting with the column and strip-shaped charge by the scholars from home and abroad. However, no substantial breakthrough has been gained in the studies of the experiment and theory of the coyote blasting with the column and strip-shaped charge due to the defects of experimental methods and mathematical models. Therefore, the application and spread of the coyote blasting with the column and strip-shaped charge have been limited.Based on the practice of the blasting of the subgrade in the highways and high-speed railways, this paper is entitled as "A simulation study on the controlled coyote blasting with the column and strip-shaped charge and its application in the subgrade of the highway and high-speed railway". It has devoted itself to the controlled coyote blasting with the column and strip-shaped charge by adopting the laser technology including dynamic holophotoelasticity and holographic interference method, meanwhile, the ANSYS-DYNA software is applied for the analysis of the computer numerical simulation. The main outcomes are as follows:1) On the basis of the existing studies, the formula Q = e·K·f(n)·W~3·η for the controlled coyote blasting with the column and strip-shaped charge in subgrade has been established, indicating that Q is linear with η on the condition that the basic parameters like e,K, n, W are fixed.2) An experimental system of blast model of three-dimensional dynamic astigmatic photo-elasticity has been established by using the ruby pulse laser apparatus. By detonated the column and the strip-shaped charge at one end, two ends and mid-point, four dynamic stress fringe patterns of the three group models at four separate moments have been got. Comprehensively considering of intensity and homogeneity of the total stress field, the blasting effect when the column and strip-shaped
charge was detonated simultaneously at two ends is the best of all; at mid-point takes the second place, then at one end.3) A laser experiment adopting holographic interference method has been made on the equal proportion model of the blasting of subgrde, and three sets of dynamic displacement fringe patterns in a group model have been drawn, the conclusion from the analysis of the displacement field shows that the extremum displacement on the perpendicular bisector of the column and strip-shaped charge, and the maximum value of the displacement field, are three times more than the values on other section, as well as the average isosurface displacement.4) By applying ANSYS-DYNA2D program, a numerical simulation study had been made on the condition that the column and strip-shaped charge is detonated at one end, two ends and mid-point respectively with three different exploding speeds, i.e. low speed ( v = 800 m/s ) , mid-speed (v = 3600 m/s) and high-speed (v = 6100 m/s ) . The rule for the stress field as well as the displacement field of the column and strip-shaped charge at different speed and in different detonating points has been gained accordingly, meanwhile, the effect of blasting detonated simultaneously at two ends with mid-speed is the best.By using ANSYS-DYNA3D program, a three-dimensional numerical simulation research has been done for the equal proportion model of the road-cutting slope of highway with the controlled blasting for the column and strip-shaped charge. The rule for stress field as well as the displacement field of the column and strip-shaped charge detonated at two ends under various ratio of length to burden has been obtained. Meanwhile, the ratio of length to burden as 0.9-1.25 is the best.Considering much of the effect of blasting vibration of the column and strip-shaped charge on superior isosurface displacement, using the mid-speed explosive and adopting the way to detonate simultaneously at two ends, the outcomes of the research have been applied in the blasting of the subgrade of one highway The blasting negative effects such as shake and slungshot have been effectively controlled, and the blocks are well-proportioned. A breakthrough has been made for the limitation of massive explosion applied in the subgrade construct criterion. The project was accomplished half a year ahead of the schedule, with the profit up to 5 million Yuan (RMB). During the three years after the road was open to traffic, no damage of the subgrade and slope has been find yet, and proved the feasibility of the theoretical analysis, model experiment and numerical simulation in the research
在高速公路、高速铁路路基工程施工中,必然会遇到大量石方爆破施工难题。国内外许多学者曾对条形药包硐室爆破进行了大量的研究工作,但由于测试手段和数学模型研究等方面的局限性,致使条形药包实验和理论研究均未取得实质性的突破,从而限制了条形药包硐室爆破技术的应用和推广。
论文结合路基工程爆破实践,以“条形药包硐室控制爆破仿真研究及其在高等级路基工程中的应用”为题,运用全息动光弹和全息干涉法等激光技术对条形药包硐室控制爆破模型进行实验研究,同时采用DYNA-2D、DYNA-3D软件进行爆破模型仿真分析,取得了如下成果:
(1) 在前人研究的基础上,建立了路基工程条形药包硐室控制爆破“长抗比η”与装药量Q之间的计算公式Q=e·K·f(n)·W~3·η,表明当e,K,n,W等基本参数确定时,Q与η成线性关系。
(2) 建立了三维动态散光光弹性爆破实验系统,首次对条形药包一端起爆、两端同时起爆、中点起爆的爆破模型进行研究,得到3组模型4个时刻的动态应力场条纹图,并得出:从全应力场的强度、均匀性综合考虑,两端同时起爆药包的爆破效果最好,中点起爆效果次之,一端起爆效果最差。
(3) 对等比例的路基工程爆破模型进行了激光全息干涉法实验,得到了1组模型3个时刻的动态位移场条纹图,位移场分析结果表明:任意时刻,条形药包中垂线上的极值位移都是全场最大位移值,该值比其它剖面的对应值大3倍以上,且其平均离面位移也最大。
(4) 在低爆速(v:800 m/s),中爆速(v=3600 m/s),高爆速(v=6100 m/s)情况下,运用DYNA-2D程序对条形药包分别在一端、两端和中间起爆的爆炸场特征进行仿真研究,得到了相应的应力场及
Since the 1980s, conspicuous achievements have been gained in the construction of the infrastructure, such as highways and high-speed railways, thus they effectively promoted the development of the economy and society in our country. Especially in the recent three years, such infrastructure has exhibited its infinite vitalityUndoubtedly, numerous problems concerning the rock blasting of the subgrade will arise in the process of the construct of the highways and high-speed railways. A lot of researches have been done on the coyote blasting with the column and strip-shaped charge by the scholars from home and abroad. However, no substantial breakthrough has been gained in the studies of the experiment and theory of the coyote blasting with the column and strip-shaped charge due to the defects of experimental methods and mathematical models. Therefore, the application and spread of the coyote blasting with the column and strip-shaped charge have been limited.Based on the practice of the blasting of the subgrade in the highways and high-speed railways, this paper is entitled as "A simulation study on the controlled coyote blasting with the column and strip-shaped charge and its application in the subgrade of the highway and high-speed railway". It has devoted itself to the controlled coyote blasting with the column and strip-shaped charge by adopting the laser technology including dynamic holophotoelasticity and holographic interference method, meanwhile, the ANSYS-DYNA software is applied for the analysis of the computer numerical simulation. The main outcomes are as follows:1) On the basis of the existing studies, the formula Q = e·K·f(n)·W~3·η for the controlled coyote blasting with the column and strip-shaped charge in subgrade has been established, indicating that Q is linear with η on the condition that the basic parameters like e,K, n, W are fixed.2) An experimental system of blast model of three-dimensional dynamic astigmatic photo-elasticity has been established by using the ruby pulse laser apparatus. By detonated the column and the strip-shaped charge at one end, two ends and mid-point, four dynamic stress fringe patterns of the three group models at four separate moments have been got. Comprehensively considering of intensity and homogeneity of the total stress field, the blasting effect when the column and strip-shaped
charge was detonated simultaneously at two ends is the best of all; at mid-point takes the second place, then at one end.3) A laser experiment adopting holographic interference method has been made on the equal proportion model of the blasting of subgrde, and three sets of dynamic displacement fringe patterns in a group model have been drawn, the conclusion from the analysis of the displacement field shows that the extremum displacement on the perpendicular bisector of the column and strip-shaped charge, and the maximum value of the displacement field, are three times more than the values on other section, as well as the average isosurface displacement.4) By applying ANSYS-DYNA2D program, a numerical simulation study had been made on the condition that the column and strip-shaped charge is detonated at one end, two ends and mid-point respectively with three different exploding speeds, i.e. low speed ( v = 800 m/s ) , mid-speed (v = 3600 m/s) and high-speed (v = 6100 m/s ) . The rule for the stress field as well as the displacement field of the column and strip-shaped charge at different speed and in different detonating points has been gained accordingly, meanwhile, the effect of blasting detonated simultaneously at two ends with mid-speed is the best.By using ANSYS-DYNA3D program, a three-dimensional numerical simulation research has been done for the equal proportion model of the road-cutting slope of highway with the controlled blasting for the column and strip-shaped charge. The rule for stress field as well as the displacement field of the column and strip-shaped charge detonated at two ends under various ratio of length to burden has been obtained. Meanwhile, the ratio of length to burden as 0.9-1.25 is the best.Considering much of the effect of blasting vibration of the column and strip-shaped charge on superior isosurface displacement, using the mid-speed explosive and adopting the way to detonate simultaneously at two ends, the outcomes of the research have been applied in the blasting of the subgrade of one highway The blasting negative effects such as shake and slungshot have been effectively controlled, and the blocks are well-proportioned. A breakthrough has been made for the limitation of massive explosion applied in the subgrade construct criterion. The project was accomplished half a year ahead of the schedule, with the profit up to 5 million Yuan (RMB). During the three years after the road was open to traffic, no damage of the subgrade and slope has been find yet, and proved the feasibility of the theoretical analysis, model experiment and numerical simulation in the research
引文
[1] 中国力学学会工程爆破专业委员会.爆破工程[M].北京:冶金工业出版社,1992
[2] 吴世明.土动力学[M].北京:中国建筑工业出版社,2000.12
[3] U. 兰格福斯.本书翻译组.岩石爆破现代技术[M].北京:冶金工业出版社,1983
[4] 吴世明.土介质中的波[M].北京:科学出版社,1997.1
[5] 高大钊.岩土工程的回顾与前瞻[M].北京.人民交通出版社,2001.6
[6] 李国豪.工程结构抗震动力学[M].上海.上海科学技术出版社,1980.2
[7] 李国豪.工程结构抗爆动力学[M].上海科学技术出版社,1989.7
[8] 林睦盘.多面临空地形爆破理论与设计及其计算绘图软件包简介[R].乌鲁木齐.乌鲁木齐有色冶金设计研究院.1990.10
[9] 朱忠节.岩石爆破新技术[M].北京:中国铁道出版社,1984
[10] 张正宇.现代水利水电工程爆破[M].北京:中国水利水电出版社,2003.5
[11] 张奇.工程爆破动力学分析及其应用[M].北京:煤炭工业出版社,1998.6
[12] 陈祖煜.土质边坡稳定分析[M].北京:中国水利水电出版社,2003.1
[13] 刘殿中.工程爆破实用手册[M].北京:冶金工业出版社,1999.5
[14] 交通部体改法规司.总结“九五”成就,规划“十五”发展.北京:人民交通出版社,2001.8
[15] 史雅语,金骥良、顾毅成等.工程爆破实践[M].合肥:中国科学技术大学出版社,2002.5
[16] 中华人民共和国行业标准.JTJ033-95.公路路基施工技术规范.北京:人民交通出版社,1995.11
[17] 刘运通,高文学.爆炸荷载下岩石损伤的数值模拟研究[J].岩石力学与工程学报,2001,20(6):789-792
[18] 周思孟.复杂岩体若干岩石力学问题[M].北京:中国水利水电出版社,1998.6
[19] 恽寿榕.爆炸力学计算方法[M].北京:北京理工大学出版社.1995.6
[20] 金骥良,李忠武.关于条形药包药量计算公式之浅见.中国力学学会工程爆破专业委员会.工程爆破文集.第6辑.深圳:海天出版社,1997,339~ 344
[21] 冯叔瑜,杨年华,张志毅.条形药包爆破技术研究.中国力学学会工程爆破专业委员会.工程爆破文集.第6辑.深圳:海天出版社,1997,304~308
[22] 张志毅,戈鹤川.条形药包硐室爆破端部加药量的计算与布置.中国力学学会工程爆破专业委员会.工程爆破文集.第6辑.深圳:海天出版社,1997,354~357
[23] 彭中华,吴子骏.论条形药包分段间隔装药微差爆破.中国力学学会工程爆破专业委员会.工程爆破文集.第6辑.深圳:海天出版社,1997,363~365
[23] 娄德兰.硐室微差爆破技术的初步研究.中国力学学会工程爆破专业委员会.工程爆破文集.第6辑.深圳:海天出版社,1997,434~438
[24] 杨年华.条形药包药量计算公式初探.爆破[J],1994,11(4):65~67
[25] 严春风,徐健.岩体强度准则概率模型及其应用[M].重庆:重庆出版社,1999.12
[26] 中国铁道工程学会爆破专业委员会.第六届全路工程爆破学术会议铁道工程爆破文集.北京:中国铁道出版社,2000.8
[27] 钱七虎.地下空间开发利用的第四次浪潮及中国的现状、前景和发展战略.中国岩石力学与工程学会第六次学术大会论文集.北京:中国科学技术出版社,2000,84~89
[28] 吴斌.结构中的应力波[M].北京:科学出版社,2001.5
[29] A. H. 哈努卡耶夫.刘殿中译.矿岩爆破物理过程[M].北京:冶金工业出版社,1980
[30] 张建仁.结构可靠度理及其在桥梁工程中的应用[M].北京:人民交通出版社,2003.1
[31] 张志呈.爆破基础理论与设计施工技术[M].重庆:重庆大学出版社,1994
[32] 高尔新,张志毅.条形装药爆炸应力场的实验研究.工程爆破论文选编.第5辑.武汉:中国地质大学出版社,1993,8~9
[33] 陶颂霖.凿岩爆破[M].北京:冶金工业出版社,1986
[34] 鲍姆.爆炸物理学[M].北京:科学出版社,1963
[35] 牛实为.冲击波,孤立波与人[M].北京:中国医药科技出版社,1999.3
[36] 李翼琪,马素贞.爆炸力学[M].北京:科学出版社,1992
[37] 王仁,熊祝华,黄文彬.塑性力学基础[M].北京:科学出版社,1982
[38] 王礼立.应力波基础[M].北京:国防工业出版社,1985
[39] 史雅语,金骥良,顾毅城等.工程爆破实践[M].合肥:中国科学技术大学出版社,2002.5
[40] 王肖钧.HELP方法在浅埋爆炸计算中的应用[J].爆炸与冲击,1985(4)
[41] 王鸿渠.多边界石方爆破工程[M].北京:人民交通出版社,1994
[42] 杨军,金乾坤,黄风雷.岩石爆破理论模型及数值计算[M].北京:科学出版社,1999.4
[43] 蔡德所.复杂坝基与滑坡研究中的新方法[M].北京:中国电力出版社,1998
[44] 于志国,王儒等.广深珠高速公路厚街立交路基开挖石方硐室控制爆破设计书.广州:广东省宏大建筑企业公司,1992.5
[45] 刘鸿亮.云南元江县西拉河水库采料爆破设计报告.云南:云南元江县西拉河水库工程建设管理处,2000.7
[46] 冯叔瑜.城市控制爆破[M].北京:中国铁道出版社,1985
[47] 杨人光.建筑物拆除爆破[M].北京:中国建筑工业出版社,1985
[48] 中华人民共和国国家标准.爆破安全规程(GB6722--86).北京:国家标准局,1986
[49] 中华人民共和国国家标准.拆除爆破安全规程(GBl3533—92).北京:国家技术监督局,1992
[50] 中华人民共和国国家标准.大爆破安全规程(GBl3349~92).北京:国家技术监督局,1992
[51] 中华人民共和国建设部.全国统一城镇控制爆破工程。硐室大爆破工程预 算定额(GYD—102—1998).北京:中国计划出版社,1998
[52] 第四届爆破破岩国际会议论文集.北京:冶金工业出版社,1995
[53] 中国力学学会工程爆破专业委员会.工程爆破文集第4辑.北京:冶金工业出版社,1993
[54] 中国力学学会工程爆破专业委员会.工程爆破文集第5辑.武汉:中国地质大学出版社,1993
[55] 吴灵光.土中空腔条形药室爆破的鼓包运动特征.土岩爆破文集第二辑.冶金工业出版社,1985
[56] 中国力学学会工程爆破专业委员会.工程爆破文集.第6辑.深圳:海天出版社,1997
[57] 何广沂.大量石方松动控制爆破新技术[M].北京:中国铁道出版社,1999
[58] 何广沂.工程爆破新技术[M].北京:中国铁道出版社,2000
[59] 林大泽.硐室爆破[M].长沙:湖南科学技术出版社,1996.7
[60] 李夕兵,古德生.岩石冲击动力学[M].长沙:中南工业大学出版社,1994.9
[61] 李温平,林睦盘.爆破工程学论文.中国科技咨询服务中心爆破科技开发公司,1987
[62] U. Langefors; B. Kihlstron. The Modem Technique of Rock Blasting. John Wiley & sons Inc New York, 1963
[63] Stig O Oiofsson. Applied Explosives Technology for Construction and Mining. Applex Sweden, 1991
[64] 何广沂.3000吨级硐室松动控制爆破[J].工程爆破,1995,1(1),48-53
[65] V. A Borovikov and, I. E Vanygin. On Analysis of the stress Wave Paramenters for an elongated Charge Explosion in Mountain Rocks. Vzrycnoe Delo, 79/33, Nedra. Moscow, 1976
[66] J.亨利奇.熊建国译.爆炸动力学用其应用[M].北京:科学出版社,1987
[67] 中国力学会工程爆破专业委员会.冯叔瑜爆破论文选集.北京:北京科学技术出版社,1994.5
[68] 霍永基.第五届工程爆破学术会议论文集.武汉:中国地质大学出版社,1995
[69] 史家育.顺昌洋菇山石灰石矿平面药包定向抛掷爆破.工程爆破论文集(3).冶金工业出版社,1988
[70] Starfield A. M., Pugliese J. M.. Compression Waves Generated in Rock by Cylindrical Explosive Chages: A Compression Between a Computer Model and Field Measurement[J]. Int. J. of Rock Mech. and Min. Sci., 1968(5): 65-77
[71] 陈叶青.条形药包爆炸应力场的全息动光弹研究及数值模拟.北科大博士后研究工作报告,1997.10
[72] 邓志勇.条形药包端部爆炸应力场的试验研究[硕士学位论文].北京:铁道科学研究院,1994
[73] 刘殿书.岩石爆破破碎的数值模拟[博士学位论文].北京:中国矿业大学北京研究生部,1992.6
[74] 支国华.岩体节理裂隙及断层对爆破地震波传播影响的动力分析[博士学位论文].上海:同济大学,1997
[75] 何思为.裂隙岩体爆破破碎的理论及应用研究[博士学位论文].武汉:中国地质大学,1993
[76] 金骥良.延长药包爆破漏斗特征的研究[硕士学位论文].北京:铁道科学研 究院,1982
[77] 杨年华.条形药包爆破作用机理[博士学位论文].北京:铁道科学研究院,1994
[78] 戈鹤川.竖直长柱药包在两自由面条件下爆坑特征的试验研究[硕士学位论文].北京:铁道科学研究院,1985
[79] 张旭.条形药包爆破作用特征的研究[硕士学位论文].北京:铁道科学研究院,1990
[80] 张志毅.延长药包水压爆破特性的试验研究[硕士学位论文].北京:铁道科学研究院,1985.8
[81] 龚敏.全息动光弹在爆破模型全场定量分析中的应用研究[硕士学位论文].北京:北京科技大学,1993
[82] 陈海波.硐室爆破爆堆形态模拟及爆破地震规律的研究[硕士学位论文].北京:北京科技大学,1999.3
[83] 郭文章.节理岩体爆破过程数值模拟及其实验研究[博士学位论文].北京:中国矿业大学北京研究生部,1997.7
[84] 林大泽.硐室爆破若干问题的研究[博士学位论文].北京:北京理工大学,1998
[85] 程西江.条形药包最佳空腔比和端头效应研究[博士学位论文].北京:北京理工大学,1999
[86] 金乾坤.岩石爆破破碎三维逾渗损伤模型的非线形数值模拟[博士学位论文].北京:中国矿业大学北京研究生部,1996.11
[87] 颜事龙,集中药包与条形药包爆破能量分布的研究[博士学位论文].北京:铁道部科学研究院,1994.12
[88] 卢文波.岩石爆破中应力波的传播及其效应研究[博士论文].武汉:武汉水利电力大学,1994
[89] Achenbach J D,徐植倌,洪锦如译.弹性固体中波的传播[M].上海:同济大学出版社,1992
[90] 卢文波,陶振宇.预裂爆破中炮孔压力变化历程的理论分析[J].爆炸与冲击,1994,14(2):140~147
[91] 龙源.条形装药土中爆炸冲击波及空腔的数值模拟[J].爆炸与冲击,1990,10(1):41~47
[92] 颜事龙.条形药包水下爆炸能量计算[J].爆破器材.1997,26(5):1-3
[93] Gwyrm Harries(澳).长柱状炸药包的模拟.第一届爆破破岩国际会议论文 集(译本),1985.1
[94] 邹定祥.计算露天矿台阶爆破块度分布的三维数学模型[J].爆炸与冲击,1988
[95] 冯叔瑜.延长药包爆破漏斗特性.铁道部科学研究院内部资料,1995
[96] 张志毅.条形药包硐室爆破技术及其特性的研究.铁道部科学研究院研究报告,1995
[97] 林学圣.条形药包药量计算、爆破作用的实验研究.水电部定向爆破筑高坝技术研究科技攻关成果研究报告,1990
[98] 福建漳州经济开发区7~#山体大爆破技术设计说明书.冶金部安全环保研究院,1993.5
[99] 漳州经此济开发区3~#山体大爆破技术设计说明书.冶金安全部环保研究院爆破研究所,1995.10
[100] 漳州经济开发区2~#山体大爆破设计说明书.冶金部安环院爆破所,1994.5
[101] 湘潭新电厂场地平整工程大爆破技术设计说明书.北阳爆破及安全技术联合开发公司,1995.7
[102] O. I. B. Neiman. Volume Models of the Action of Cylindrical-Change Explosion in Rock. Soviet Min, Sci, 1987
[103] Adoms T. F. 用SHALE法对岩石爆破的模拟.第一届爆破破岩国际会议论文集(中译本),1985
[104] Borovikov V. A. Development of a Gas Cavity When a Cylindrical Charge is Exploded in Rock. Soviet Min Sci, 1986
[105] 龙源、林学圣、许连坡.条形装药土中爆炸空腔发展过程的实验研究[J].爆炸与冲击,1988
[106] 朱瑞赓.条形装药空腔比对岩石爆破的影响.第一届爆破岩石国际会议论文集,1985.1
[107] 霍永基.定向爆破筑高坝技术研究.水电部八五攻关课题,1990
[108] 霍永基.定向爆破筑高坝及高土石坝赴苏考察报告.水电科学研究院(内部资料),1991
[109] 沈贤玑.不偶合直列装药封闭爆破的压缩效应.工程爆破文集(第三辑),1988
[110] Foumey M. E. On the Application of a Laser to High Speed Photography. Exp. Mech, 1963
[111] Reinhard H. W. Dynamic Photoelastic Investigation of Stress Wave Interaction With a Bench Face. Exp. Mech., 1971
[112] Foumey W. Let al. Stress Wave Propagation from Inclined Charge near a Bench Face. Int. J. of Rock Mech. and Min. Sci., 1974
[113] D. C. Holloway. Application of holographic interferometry to stress wave and crack propagation problems. Optical Engineering, May/June 1982, Vol. 21(3)
[114] V. V. Aduskin. Ejection Bjasting Vsing Linear Charges. Soviet Min. Sci., 1981
[115] 戴塔根,刘悟辉.环境地质学[M].长沙:中南大学出版社,2000.8
[116] V. V. Adushkin, S. R. KryndushkinA. M. Tikhonirov. Compressional Wave Behavior With Explosion of a Cylindrical Charge in a Solid Medium. S. W. S, 1987
[117] 朱振海,杨永琦.爆炸与冲击.1985,1(3):67~76
[118] 杨永琦,朱振海.光面爆破模型试验研究[J].煤碳学报,1986.No.3
[119] 王树仁,朱振海,魏有志.空孔导向作用的动光弹研究.爆破,1985.2
[120] 毕谦,杨邦成.初应力场中多孔爆破研究.全国第六届实验力学会议论文集,1998
[121] 朱振海.确保膨胀波条纹级数的方法探讨.全国光测力学学术讨论会论文,1986.11
[123] 戚金.硐室爆破条形药包设计中的有关问题[J].工程爆破,2000,6(3):65~68.
[124] 金星男.水泥模型中条形与集中药包爆炸空腔发展的试验研究.第四届工程爆破论文集,1993.4
[125] 土岩爆破文集编写组.土岩爆破文集(第三集).北京:冶金工业出版社,1987
[126] 龚敏.爆破动态应力场量化研究原理与初步实验[J].爆炸与冲击,1997,17(1):43-49
[127] 龚敏.爆破等差与等和条纹图分析方法探讨[J].爆炸与冲击,1997,17 (3):265-271
[128] 邓志毅.条形药包端部爆炸应力场的动光弹试验研究[J].爆炸与冲击,1996,16(1):86-90
[129] 卢文波.条形药包的空腔发展过程模拟[J].爆炸与冲击,1996,16(2):171-177
[130] 冯叔瑜,金骥良,杨年华.延长药包爆破现状的分析研究.工程爆破文集 (第五辑).武汉:中国地质大学出版社,1993,4-9
[131] 冯叔瑜.大量爆破设计与施工[M].北京:人民铁道出版社,1963
[132] 史家育.顺昌洋菇山石灰石矿平面药包定向抛掷爆破.工程爆破论文集(3).冶金工业出版社,1988。
[133] 彭经枢.条形药包在横南铁路武夷山区段站的应用[J].西部探矿工程.1997,9(3):41-44
[134] 陈士海.条形装药硐室爆破研究[J].爆炸与冲击.1995,15(4):363-373
[135] 陶纪南.条形空腔药包破坏范围和抛掷堆积规律的研究[J].爆炸与冲击.1990,10(2):176-181
[136] 李瑞华,等.700t条形空腔非电微差控制大爆破[J].施工技术,1996,25(5):32-33
[137] A. A. 切尔尼高夫斯基.定向抛掷爆破[M].北京:中国建筑工业出版社,1983.6
[138] 中国力学学会工程爆破专业委员会.西安:工程爆破学术会议文集(第四届).1989
[139] 长江科学院水利水电爆破咨询服务部.第二届爆破破岩国际会议论文选集,1990.10
[140] 钮强.岩石爆破机理[M].沈阳:东北工学院出版社,1990.8
[141] 林大泽.浏阳城市大型控制爆破设计说明书.浏阳:106国道指挥部,1995
[142] 钟冬望,林大泽.爆炸安全技术[M].武汉:武汉工业大学出版社,1992.1
[143] 刘育魁,姚戈.工程爆破问题数值模拟研究[J].爆炸与冲击,1992(4)8,297-306
[144] John O. Hallquist. DYNA3D User's Manual (Nonlinear Dynamic Analysis of Structures in Three Dimensions), University of California, Lawrence Livermore National Laboratory, Rept. UCID-19592, Rev. 4(1988)
[145] John O. Hallquist. User's Manual for DYNA3D and DYNAP (Nonlinear Dynamic Analysis of Structures in Three Dimensions), University of California, Lawrence Livermore National Laboratory, Rept., 1981
[146] J. O. Hallquist. Theoretical Manual for DYNA3D, University of California, Lawrence Livermore National Laboratory, Rept. UCID-19401 (1982)
[147] Fourney, W.L, et al.. Stress Wave and Fracture Propagation from Inclined Charge near a Bench Face. Int. J. of Rock Mech. and Min. Sci., 1974
[148] J. F. Cardenas-Garcia and D. C. Holloway. On the Lamb solution and Rayleigh-wave induced cracking. Experimental Mechanics, June. 1988
[149] Rossmanith. H. P and Shukla. A. Dynamic Photoelastic Investigation of Interaction of stress Wave with Running cracks. Exp. Mech, 1981, 415-422
[150] 维斯特.樊雄文、王玉洪译.全息干涉度量学[M].北京.机械工业出版社,1984
[151] 佟景伟,李鸿琦.反射全息干涉和反射光弹性方法应用于应力波传播[J].力学学报,1987,19(6):
[152] 杨永琦,秦虎.应用脉冲全息法研究爆炸引起的地表震动[J].爆炸与冲击,1990,10(4):355-360
[153] 龚敏,于亚伦,佟景伟.爆破等差与等和条纹图分析方法探讨[J].爆炸与冲击.1997,17(3):265-271
[154] 龚敏,于亚伦.对条形药包应力波作用的探讨[J].岩石力学与工程学报,1998,17(Supp)
[155] 吉国栋,陈叶青,于亚伦等.条形药包爆炸应力场的全息动光弹研究[J].工程爆破,1999,5(4):20-24
[156] 邓志勇,条形药包爆炸应力场的动云纹试验研究,工程爆破文集第六辑,海天出版社,1997.11
[157] Durelli, AJ., Shukla. A., Identification of Isochromatic Fringes[J]. Exp. Mech. 1983, 23(1)
[158] 龚敏,于亚伦,齐金铎,预裂-缓冲爆破中柱状孔间应力波作用分析[J],北京科技大学学报,1998,20(1):15-19
[159] AJ. Durelli, A. Shukla. Identification of Isochromatic Fringes[J], Experimental Mechanics, 1983, 23(1): 111-119
[160] 朱振海,杨善元.确定膨胀波条纹级数的方法探讨[J].力学与实践,1988,7:157-160
[161] 龚敏,黎剑华等.延长药包不同位置起爆时的应力场,北京科技大学学报,2002,24(3)。
[2] 吴世明.土动力学[M].北京:中国建筑工业出版社,2000.12
[3] U. 兰格福斯.本书翻译组.岩石爆破现代技术[M].北京:冶金工业出版社,1983
[4] 吴世明.土介质中的波[M].北京:科学出版社,1997.1
[5] 高大钊.岩土工程的回顾与前瞻[M].北京.人民交通出版社,2001.6
[6] 李国豪.工程结构抗震动力学[M].上海.上海科学技术出版社,1980.2
[7] 李国豪.工程结构抗爆动力学[M].上海科学技术出版社,1989.7
[8] 林睦盘.多面临空地形爆破理论与设计及其计算绘图软件包简介[R].乌鲁木齐.乌鲁木齐有色冶金设计研究院.1990.10
[9] 朱忠节.岩石爆破新技术[M].北京:中国铁道出版社,1984
[10] 张正宇.现代水利水电工程爆破[M].北京:中国水利水电出版社,2003.5
[11] 张奇.工程爆破动力学分析及其应用[M].北京:煤炭工业出版社,1998.6
[12] 陈祖煜.土质边坡稳定分析[M].北京:中国水利水电出版社,2003.1
[13] 刘殿中.工程爆破实用手册[M].北京:冶金工业出版社,1999.5
[14] 交通部体改法规司.总结“九五”成就,规划“十五”发展.北京:人民交通出版社,2001.8
[15] 史雅语,金骥良、顾毅成等.工程爆破实践[M].合肥:中国科学技术大学出版社,2002.5
[16] 中华人民共和国行业标准.JTJ033-95.公路路基施工技术规范.北京:人民交通出版社,1995.11
[17] 刘运通,高文学.爆炸荷载下岩石损伤的数值模拟研究[J].岩石力学与工程学报,2001,20(6):789-792
[18] 周思孟.复杂岩体若干岩石力学问题[M].北京:中国水利水电出版社,1998.6
[19] 恽寿榕.爆炸力学计算方法[M].北京:北京理工大学出版社.1995.6
[20] 金骥良,李忠武.关于条形药包药量计算公式之浅见.中国力学学会工程爆破专业委员会.工程爆破文集.第6辑.深圳:海天出版社,1997,339~ 344
[21] 冯叔瑜,杨年华,张志毅.条形药包爆破技术研究.中国力学学会工程爆破专业委员会.工程爆破文集.第6辑.深圳:海天出版社,1997,304~308
[22] 张志毅,戈鹤川.条形药包硐室爆破端部加药量的计算与布置.中国力学学会工程爆破专业委员会.工程爆破文集.第6辑.深圳:海天出版社,1997,354~357
[23] 彭中华,吴子骏.论条形药包分段间隔装药微差爆破.中国力学学会工程爆破专业委员会.工程爆破文集.第6辑.深圳:海天出版社,1997,363~365
[23] 娄德兰.硐室微差爆破技术的初步研究.中国力学学会工程爆破专业委员会.工程爆破文集.第6辑.深圳:海天出版社,1997,434~438
[24] 杨年华.条形药包药量计算公式初探.爆破[J],1994,11(4):65~67
[25] 严春风,徐健.岩体强度准则概率模型及其应用[M].重庆:重庆出版社,1999.12
[26] 中国铁道工程学会爆破专业委员会.第六届全路工程爆破学术会议铁道工程爆破文集.北京:中国铁道出版社,2000.8
[27] 钱七虎.地下空间开发利用的第四次浪潮及中国的现状、前景和发展战略.中国岩石力学与工程学会第六次学术大会论文集.北京:中国科学技术出版社,2000,84~89
[28] 吴斌.结构中的应力波[M].北京:科学出版社,2001.5
[29] A. H. 哈努卡耶夫.刘殿中译.矿岩爆破物理过程[M].北京:冶金工业出版社,1980
[30] 张建仁.结构可靠度理及其在桥梁工程中的应用[M].北京:人民交通出版社,2003.1
[31] 张志呈.爆破基础理论与设计施工技术[M].重庆:重庆大学出版社,1994
[32] 高尔新,张志毅.条形装药爆炸应力场的实验研究.工程爆破论文选编.第5辑.武汉:中国地质大学出版社,1993,8~9
[33] 陶颂霖.凿岩爆破[M].北京:冶金工业出版社,1986
[34] 鲍姆.爆炸物理学[M].北京:科学出版社,1963
[35] 牛实为.冲击波,孤立波与人[M].北京:中国医药科技出版社,1999.3
[36] 李翼琪,马素贞.爆炸力学[M].北京:科学出版社,1992
[37] 王仁,熊祝华,黄文彬.塑性力学基础[M].北京:科学出版社,1982
[38] 王礼立.应力波基础[M].北京:国防工业出版社,1985
[39] 史雅语,金骥良,顾毅城等.工程爆破实践[M].合肥:中国科学技术大学出版社,2002.5
[40] 王肖钧.HELP方法在浅埋爆炸计算中的应用[J].爆炸与冲击,1985(4)
[41] 王鸿渠.多边界石方爆破工程[M].北京:人民交通出版社,1994
[42] 杨军,金乾坤,黄风雷.岩石爆破理论模型及数值计算[M].北京:科学出版社,1999.4
[43] 蔡德所.复杂坝基与滑坡研究中的新方法[M].北京:中国电力出版社,1998
[44] 于志国,王儒等.广深珠高速公路厚街立交路基开挖石方硐室控制爆破设计书.广州:广东省宏大建筑企业公司,1992.5
[45] 刘鸿亮.云南元江县西拉河水库采料爆破设计报告.云南:云南元江县西拉河水库工程建设管理处,2000.7
[46] 冯叔瑜.城市控制爆破[M].北京:中国铁道出版社,1985
[47] 杨人光.建筑物拆除爆破[M].北京:中国建筑工业出版社,1985
[48] 中华人民共和国国家标准.爆破安全规程(GB6722--86).北京:国家标准局,1986
[49] 中华人民共和国国家标准.拆除爆破安全规程(GBl3533—92).北京:国家技术监督局,1992
[50] 中华人民共和国国家标准.大爆破安全规程(GBl3349~92).北京:国家技术监督局,1992
[51] 中华人民共和国建设部.全国统一城镇控制爆破工程。硐室大爆破工程预 算定额(GYD—102—1998).北京:中国计划出版社,1998
[52] 第四届爆破破岩国际会议论文集.北京:冶金工业出版社,1995
[53] 中国力学学会工程爆破专业委员会.工程爆破文集第4辑.北京:冶金工业出版社,1993
[54] 中国力学学会工程爆破专业委员会.工程爆破文集第5辑.武汉:中国地质大学出版社,1993
[55] 吴灵光.土中空腔条形药室爆破的鼓包运动特征.土岩爆破文集第二辑.冶金工业出版社,1985
[56] 中国力学学会工程爆破专业委员会.工程爆破文集.第6辑.深圳:海天出版社,1997
[57] 何广沂.大量石方松动控制爆破新技术[M].北京:中国铁道出版社,1999
[58] 何广沂.工程爆破新技术[M].北京:中国铁道出版社,2000
[59] 林大泽.硐室爆破[M].长沙:湖南科学技术出版社,1996.7
[60] 李夕兵,古德生.岩石冲击动力学[M].长沙:中南工业大学出版社,1994.9
[61] 李温平,林睦盘.爆破工程学论文.中国科技咨询服务中心爆破科技开发公司,1987
[62] U. Langefors; B. Kihlstron. The Modem Technique of Rock Blasting. John Wiley & sons Inc New York, 1963
[63] Stig O Oiofsson. Applied Explosives Technology for Construction and Mining. Applex Sweden, 1991
[64] 何广沂.3000吨级硐室松动控制爆破[J].工程爆破,1995,1(1),48-53
[65] V. A Borovikov and, I. E Vanygin. On Analysis of the stress Wave Paramenters for an elongated Charge Explosion in Mountain Rocks. Vzrycnoe Delo, 79/33, Nedra. Moscow, 1976
[66] J.亨利奇.熊建国译.爆炸动力学用其应用[M].北京:科学出版社,1987
[67] 中国力学会工程爆破专业委员会.冯叔瑜爆破论文选集.北京:北京科学技术出版社,1994.5
[68] 霍永基.第五届工程爆破学术会议论文集.武汉:中国地质大学出版社,1995
[69] 史家育.顺昌洋菇山石灰石矿平面药包定向抛掷爆破.工程爆破论文集(3).冶金工业出版社,1988
[70] Starfield A. M., Pugliese J. M.. Compression Waves Generated in Rock by Cylindrical Explosive Chages: A Compression Between a Computer Model and Field Measurement[J]. Int. J. of Rock Mech. and Min. Sci., 1968(5): 65-77
[71] 陈叶青.条形药包爆炸应力场的全息动光弹研究及数值模拟.北科大博士后研究工作报告,1997.10
[72] 邓志勇.条形药包端部爆炸应力场的试验研究[硕士学位论文].北京:铁道科学研究院,1994
[73] 刘殿书.岩石爆破破碎的数值模拟[博士学位论文].北京:中国矿业大学北京研究生部,1992.6
[74] 支国华.岩体节理裂隙及断层对爆破地震波传播影响的动力分析[博士学位论文].上海:同济大学,1997
[75] 何思为.裂隙岩体爆破破碎的理论及应用研究[博士学位论文].武汉:中国地质大学,1993
[76] 金骥良.延长药包爆破漏斗特征的研究[硕士学位论文].北京:铁道科学研 究院,1982
[77] 杨年华.条形药包爆破作用机理[博士学位论文].北京:铁道科学研究院,1994
[78] 戈鹤川.竖直长柱药包在两自由面条件下爆坑特征的试验研究[硕士学位论文].北京:铁道科学研究院,1985
[79] 张旭.条形药包爆破作用特征的研究[硕士学位论文].北京:铁道科学研究院,1990
[80] 张志毅.延长药包水压爆破特性的试验研究[硕士学位论文].北京:铁道科学研究院,1985.8
[81] 龚敏.全息动光弹在爆破模型全场定量分析中的应用研究[硕士学位论文].北京:北京科技大学,1993
[82] 陈海波.硐室爆破爆堆形态模拟及爆破地震规律的研究[硕士学位论文].北京:北京科技大学,1999.3
[83] 郭文章.节理岩体爆破过程数值模拟及其实验研究[博士学位论文].北京:中国矿业大学北京研究生部,1997.7
[84] 林大泽.硐室爆破若干问题的研究[博士学位论文].北京:北京理工大学,1998
[85] 程西江.条形药包最佳空腔比和端头效应研究[博士学位论文].北京:北京理工大学,1999
[86] 金乾坤.岩石爆破破碎三维逾渗损伤模型的非线形数值模拟[博士学位论文].北京:中国矿业大学北京研究生部,1996.11
[87] 颜事龙,集中药包与条形药包爆破能量分布的研究[博士学位论文].北京:铁道部科学研究院,1994.12
[88] 卢文波.岩石爆破中应力波的传播及其效应研究[博士论文].武汉:武汉水利电力大学,1994
[89] Achenbach J D,徐植倌,洪锦如译.弹性固体中波的传播[M].上海:同济大学出版社,1992
[90] 卢文波,陶振宇.预裂爆破中炮孔压力变化历程的理论分析[J].爆炸与冲击,1994,14(2):140~147
[91] 龙源.条形装药土中爆炸冲击波及空腔的数值模拟[J].爆炸与冲击,1990,10(1):41~47
[92] 颜事龙.条形药包水下爆炸能量计算[J].爆破器材.1997,26(5):1-3
[93] Gwyrm Harries(澳).长柱状炸药包的模拟.第一届爆破破岩国际会议论文 集(译本),1985.1
[94] 邹定祥.计算露天矿台阶爆破块度分布的三维数学模型[J].爆炸与冲击,1988
[95] 冯叔瑜.延长药包爆破漏斗特性.铁道部科学研究院内部资料,1995
[96] 张志毅.条形药包硐室爆破技术及其特性的研究.铁道部科学研究院研究报告,1995
[97] 林学圣.条形药包药量计算、爆破作用的实验研究.水电部定向爆破筑高坝技术研究科技攻关成果研究报告,1990
[98] 福建漳州经济开发区7~#山体大爆破技术设计说明书.冶金部安全环保研究院,1993.5
[99] 漳州经此济开发区3~#山体大爆破技术设计说明书.冶金安全部环保研究院爆破研究所,1995.10
[100] 漳州经济开发区2~#山体大爆破设计说明书.冶金部安环院爆破所,1994.5
[101] 湘潭新电厂场地平整工程大爆破技术设计说明书.北阳爆破及安全技术联合开发公司,1995.7
[102] O. I. B. Neiman. Volume Models of the Action of Cylindrical-Change Explosion in Rock. Soviet Min, Sci, 1987
[103] Adoms T. F. 用SHALE法对岩石爆破的模拟.第一届爆破破岩国际会议论文集(中译本),1985
[104] Borovikov V. A. Development of a Gas Cavity When a Cylindrical Charge is Exploded in Rock. Soviet Min Sci, 1986
[105] 龙源、林学圣、许连坡.条形装药土中爆炸空腔发展过程的实验研究[J].爆炸与冲击,1988
[106] 朱瑞赓.条形装药空腔比对岩石爆破的影响.第一届爆破岩石国际会议论文集,1985.1
[107] 霍永基.定向爆破筑高坝技术研究.水电部八五攻关课题,1990
[108] 霍永基.定向爆破筑高坝及高土石坝赴苏考察报告.水电科学研究院(内部资料),1991
[109] 沈贤玑.不偶合直列装药封闭爆破的压缩效应.工程爆破文集(第三辑),1988
[110] Foumey M. E. On the Application of a Laser to High Speed Photography. Exp. Mech, 1963
[111] Reinhard H. W. Dynamic Photoelastic Investigation of Stress Wave Interaction With a Bench Face. Exp. Mech., 1971
[112] Foumey W. Let al. Stress Wave Propagation from Inclined Charge near a Bench Face. Int. J. of Rock Mech. and Min. Sci., 1974
[113] D. C. Holloway. Application of holographic interferometry to stress wave and crack propagation problems. Optical Engineering, May/June 1982, Vol. 21(3)
[114] V. V. Aduskin. Ejection Bjasting Vsing Linear Charges. Soviet Min. Sci., 1981
[115] 戴塔根,刘悟辉.环境地质学[M].长沙:中南大学出版社,2000.8
[116] V. V. Adushkin, S. R. KryndushkinA. M. Tikhonirov. Compressional Wave Behavior With Explosion of a Cylindrical Charge in a Solid Medium. S. W. S, 1987
[117] 朱振海,杨永琦.爆炸与冲击.1985,1(3):67~76
[118] 杨永琦,朱振海.光面爆破模型试验研究[J].煤碳学报,1986.No.3
[119] 王树仁,朱振海,魏有志.空孔导向作用的动光弹研究.爆破,1985.2
[120] 毕谦,杨邦成.初应力场中多孔爆破研究.全国第六届实验力学会议论文集,1998
[121] 朱振海.确保膨胀波条纹级数的方法探讨.全国光测力学学术讨论会论文,1986.11
[123] 戚金.硐室爆破条形药包设计中的有关问题[J].工程爆破,2000,6(3):65~68.
[124] 金星男.水泥模型中条形与集中药包爆炸空腔发展的试验研究.第四届工程爆破论文集,1993.4
[125] 土岩爆破文集编写组.土岩爆破文集(第三集).北京:冶金工业出版社,1987
[126] 龚敏.爆破动态应力场量化研究原理与初步实验[J].爆炸与冲击,1997,17(1):43-49
[127] 龚敏.爆破等差与等和条纹图分析方法探讨[J].爆炸与冲击,1997,17 (3):265-271
[128] 邓志毅.条形药包端部爆炸应力场的动光弹试验研究[J].爆炸与冲击,1996,16(1):86-90
[129] 卢文波.条形药包的空腔发展过程模拟[J].爆炸与冲击,1996,16(2):171-177
[130] 冯叔瑜,金骥良,杨年华.延长药包爆破现状的分析研究.工程爆破文集 (第五辑).武汉:中国地质大学出版社,1993,4-9
[131] 冯叔瑜.大量爆破设计与施工[M].北京:人民铁道出版社,1963
[132] 史家育.顺昌洋菇山石灰石矿平面药包定向抛掷爆破.工程爆破论文集(3).冶金工业出版社,1988。
[133] 彭经枢.条形药包在横南铁路武夷山区段站的应用[J].西部探矿工程.1997,9(3):41-44
[134] 陈士海.条形装药硐室爆破研究[J].爆炸与冲击.1995,15(4):363-373
[135] 陶纪南.条形空腔药包破坏范围和抛掷堆积规律的研究[J].爆炸与冲击.1990,10(2):176-181
[136] 李瑞华,等.700t条形空腔非电微差控制大爆破[J].施工技术,1996,25(5):32-33
[137] A. A. 切尔尼高夫斯基.定向抛掷爆破[M].北京:中国建筑工业出版社,1983.6
[138] 中国力学学会工程爆破专业委员会.西安:工程爆破学术会议文集(第四届).1989
[139] 长江科学院水利水电爆破咨询服务部.第二届爆破破岩国际会议论文选集,1990.10
[140] 钮强.岩石爆破机理[M].沈阳:东北工学院出版社,1990.8
[141] 林大泽.浏阳城市大型控制爆破设计说明书.浏阳:106国道指挥部,1995
[142] 钟冬望,林大泽.爆炸安全技术[M].武汉:武汉工业大学出版社,1992.1
[143] 刘育魁,姚戈.工程爆破问题数值模拟研究[J].爆炸与冲击,1992(4)8,297-306
[144] John O. Hallquist. DYNA3D User's Manual (Nonlinear Dynamic Analysis of Structures in Three Dimensions), University of California, Lawrence Livermore National Laboratory, Rept. UCID-19592, Rev. 4(1988)
[145] John O. Hallquist. User's Manual for DYNA3D and DYNAP (Nonlinear Dynamic Analysis of Structures in Three Dimensions), University of California, Lawrence Livermore National Laboratory, Rept., 1981
[146] J. O. Hallquist. Theoretical Manual for DYNA3D, University of California, Lawrence Livermore National Laboratory, Rept. UCID-19401 (1982)
[147] Fourney, W.L, et al.. Stress Wave and Fracture Propagation from Inclined Charge near a Bench Face. Int. J. of Rock Mech. and Min. Sci., 1974
[148] J. F. Cardenas-Garcia and D. C. Holloway. On the Lamb solution and Rayleigh-wave induced cracking. Experimental Mechanics, June. 1988
[149] Rossmanith. H. P and Shukla. A. Dynamic Photoelastic Investigation of Interaction of stress Wave with Running cracks. Exp. Mech, 1981, 415-422
[150] 维斯特.樊雄文、王玉洪译.全息干涉度量学[M].北京.机械工业出版社,1984
[151] 佟景伟,李鸿琦.反射全息干涉和反射光弹性方法应用于应力波传播[J].力学学报,1987,19(6):
[152] 杨永琦,秦虎.应用脉冲全息法研究爆炸引起的地表震动[J].爆炸与冲击,1990,10(4):355-360
[153] 龚敏,于亚伦,佟景伟.爆破等差与等和条纹图分析方法探讨[J].爆炸与冲击.1997,17(3):265-271
[154] 龚敏,于亚伦.对条形药包应力波作用的探讨[J].岩石力学与工程学报,1998,17(Supp)
[155] 吉国栋,陈叶青,于亚伦等.条形药包爆炸应力场的全息动光弹研究[J].工程爆破,1999,5(4):20-24
[156] 邓志勇,条形药包爆炸应力场的动云纹试验研究,工程爆破文集第六辑,海天出版社,1997.11
[157] Durelli, AJ., Shukla. A., Identification of Isochromatic Fringes[J]. Exp. Mech. 1983, 23(1)
[158] 龚敏,于亚伦,齐金铎,预裂-缓冲爆破中柱状孔间应力波作用分析[J],北京科技大学学报,1998,20(1):15-19
[159] AJ. Durelli, A. Shukla. Identification of Isochromatic Fringes[J], Experimental Mechanics, 1983, 23(1): 111-119
[160] 朱振海,杨善元.确定膨胀波条纹级数的方法探讨[J].力学与实践,1988,7:157-160
[161] 龚敏,黎剑华等.延长药包不同位置起爆时的应力场,北京科技大学学报,2002,24(3)。
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |