岩石爆破混沌模型与条形药包爆破应力波衰减规律的研究
|
摘要
本文首次应用混沌理论研究了爆破载荷作用下岩石强度、破碎块度、破碎过程的混沌特征,提出了爆破系统是一种典型的混沌系统的学术观点。结合损伤力学研究了爆破破碎面与岩石初始损伤的关系,首次提出了爆破吸引面、破碎吸引因子的概念;结合分形理论,讨论了爆破吸引面分形维数与破碎块度分形维数之间的关系;使岩石在爆破作用下的本构关系研究转化为破碎吸引面的本构关系研究。得出了破碎吸引因子与岩石强度和初始损伤的关系式,并从理论上建立了岩石爆破破碎吸引面动态本构方程。
根据条形药包爆破应力波分布特征及衰减规律,提出了可将条形药包爆破柱部应力波当作柱面波、端部应力波当作球面波处理的研究方法:建立了理想的完全弹性介质中球药包和条形药包爆破径向应力衰减方程。在此基础上,根据本文建立的爆破吸引面本构方程和球药包应力公式,建立了理想的条形药包爆破径向应力衰减方程。随后对理想方程进行了修正,建立了条形药包爆破径向应力理论衰减方程。并利用已有试验结果对所获得的径向应力衰减方程进行了验证。
根据建立的条形药包爆破径向应力衰减方程,得出了浅孔爆破堵塞长度和条形硐室药包爆破药室间距理论计算公式;按推导的计算式设计了珠海西区机场路垭口条形药包爆破和高峰矿业有限责任公司地下采场浅孔爆破。随后对获得的应力波衰减方程在冲击波作用范围的适应性进行了验证。对照国内外研究成果,本文主要取得了如下创新性成果:
a)将混沌理论引入本构方程的研究工作中,分析了爆破过程中混沌力学特征,提出了爆破系统是一种典型的混沌系统的学术观点;提出了破碎吸引面的概念,使爆破作用下的岩石本构方程的研究过渡到破碎吸引面本构方程的研究。
b)对爆破破碎过程的方向性,破碎块度分布的貌似随机性,岩石破坏强度的变化给出了合理的学术解释。
c)在破碎吸引面的基础上,分析了破碎吸引面与损伤的关系,进一步提出了破碎吸引因子或破碎吸引子的新概念,而后根据连续介质力学的唯象法,建立了岩石爆破作用下破碎吸引面动态本构方程。进一步发展和完善了爆破分形损伤理论模型。
d)提出了将条形药包柱部应力波当作柱面波、端部应力波当作球面波处理的应力波研究方法。获得了完全弹性介质条件下,球药包和条形药包径向应力衰减方程和矿岩介质条件下条形药包径向和端部轴向应力衰减方程。
e)在对应力衰减方程验证的基础上,应用该方程获得了炮孔药包堵塞长度和条形硐室药包药室间距计算公式。
The paper analyzes the CHAOS characteristics of the rock stress ^ fragment dimension crashing process under the explosive blasting by the chaos theory for the first time, puts forward academic point of view that blasting system is a typical Chaos system, adding up to damage mechanics, reduces the connection between blasting fragment face and original damages of rock. Then, the concepts of blasting attracted face and the blasting attracted factor have been put forward. Linked the fractal theory, the fractal dimension connection of blasting attracted face and fragment dimension has been elicited. The research about the principle formula of rock under the explosive has been become the research of principle formula in crashing attracted face. The formula has been reduced between the original damages and the crashing attracted factor, rock stress, and then, the paper give the rock theoretical dynamic principle formula in rock cashing attracted face. It make the principle formula become simpler and more practical.
By the attenuation regulation and distributing character of stress wave under the linear charge blasting, the paper bring forward the idea that the columniation stress wave can be regarded as cylinder stress wave, the end stress wave as spherical wave. The perfect stress attenuation formula in radical direction is established in complete elastic medium. On the foundation, the perfect stress attenuation formula in linear charge blasting has been reduced by the principle formula of blasting attracted face of the paper and the stress attenuation formula of spherical charge. After this, according to the difference between practice and perfect condition, the paper establish the stress attenuation formula on the radical direction under linear charge blasting. It also has been validated by the test result.
On the basis of reduced stress attenuation formula, the paper elicit theoretical calculation expressions of jam lengths in hole blasting and space between charges in linear charge blasting. Linear charge blasting at the net of highway to Zhuhai aerodrome and the hole blasting at underground stope in Gaofen mining company have been design by the expressions. And then the paper validates the suitableness of the stress attenuation in the area of shock wave. Compared the research achievements with in-country and overseas, this paper bring forward some innovative result as follows:
a). Brings forward the chaos theory into the research work of the principal equations. Analyzes the chaos mechanics characteristics in blasting. Puts forward academic point of view that blasting system is a typical Chaos system. Puts forward new concept of crash attracted face. It makes the research of rock principal equations change to the research of crash attracted face principal equations.
b). Put forward suitable academic explanation for the direction of blasting process and false random of fragment distribution.
c). On the basis of crash attracted face, analyzes the relationship between crash attracted face and damage, and then puts forward the crash attracted factor. According to phenomena method of continuum medium mechanics, puts the crash attracted face principal equation. Develops the blasting damage theoretical model and make it more perfectible.
d). Puts forward stress wave research method when the linear charge blasting. It regarded column stress wave as cylinder stress wave, end stress wave as spherical wave. Acquires radial stress attenuating formula of the spherical charge and cylindrical charge in completely elastic medium and the radial and axis stress attenuating formula of linear charge in the rock.
e). On the basis of validation of stress attenuating formula, the calculation formulas of hole jam length and space between chambers of linear room chamber have been achieved.
根据条形药包爆破应力波分布特征及衰减规律,提出了可将条形药包爆破柱部应力波当作柱面波、端部应力波当作球面波处理的研究方法:建立了理想的完全弹性介质中球药包和条形药包爆破径向应力衰减方程。在此基础上,根据本文建立的爆破吸引面本构方程和球药包应力公式,建立了理想的条形药包爆破径向应力衰减方程。随后对理想方程进行了修正,建立了条形药包爆破径向应力理论衰减方程。并利用已有试验结果对所获得的径向应力衰减方程进行了验证。
根据建立的条形药包爆破径向应力衰减方程,得出了浅孔爆破堵塞长度和条形硐室药包爆破药室间距理论计算公式;按推导的计算式设计了珠海西区机场路垭口条形药包爆破和高峰矿业有限责任公司地下采场浅孔爆破。随后对获得的应力波衰减方程在冲击波作用范围的适应性进行了验证。对照国内外研究成果,本文主要取得了如下创新性成果:
a)将混沌理论引入本构方程的研究工作中,分析了爆破过程中混沌力学特征,提出了爆破系统是一种典型的混沌系统的学术观点;提出了破碎吸引面的概念,使爆破作用下的岩石本构方程的研究过渡到破碎吸引面本构方程的研究。
b)对爆破破碎过程的方向性,破碎块度分布的貌似随机性,岩石破坏强度的变化给出了合理的学术解释。
c)在破碎吸引面的基础上,分析了破碎吸引面与损伤的关系,进一步提出了破碎吸引因子或破碎吸引子的新概念,而后根据连续介质力学的唯象法,建立了岩石爆破作用下破碎吸引面动态本构方程。进一步发展和完善了爆破分形损伤理论模型。
d)提出了将条形药包柱部应力波当作柱面波、端部应力波当作球面波处理的应力波研究方法。获得了完全弹性介质条件下,球药包和条形药包径向应力衰减方程和矿岩介质条件下条形药包径向和端部轴向应力衰减方程。
e)在对应力衰减方程验证的基础上,应用该方程获得了炮孔药包堵塞长度和条形硐室药包药室间距计算公式。
The paper analyzes the CHAOS characteristics of the rock stress ^ fragment dimension crashing process under the explosive blasting by the chaos theory for the first time, puts forward academic point of view that blasting system is a typical Chaos system, adding up to damage mechanics, reduces the connection between blasting fragment face and original damages of rock. Then, the concepts of blasting attracted face and the blasting attracted factor have been put forward. Linked the fractal theory, the fractal dimension connection of blasting attracted face and fragment dimension has been elicited. The research about the principle formula of rock under the explosive has been become the research of principle formula in crashing attracted face. The formula has been reduced between the original damages and the crashing attracted factor, rock stress, and then, the paper give the rock theoretical dynamic principle formula in rock cashing attracted face. It make the principle formula become simpler and more practical.
By the attenuation regulation and distributing character of stress wave under the linear charge blasting, the paper bring forward the idea that the columniation stress wave can be regarded as cylinder stress wave, the end stress wave as spherical wave. The perfect stress attenuation formula in radical direction is established in complete elastic medium. On the foundation, the perfect stress attenuation formula in linear charge blasting has been reduced by the principle formula of blasting attracted face of the paper and the stress attenuation formula of spherical charge. After this, according to the difference between practice and perfect condition, the paper establish the stress attenuation formula on the radical direction under linear charge blasting. It also has been validated by the test result.
On the basis of reduced stress attenuation formula, the paper elicit theoretical calculation expressions of jam lengths in hole blasting and space between charges in linear charge blasting. Linear charge blasting at the net of highway to Zhuhai aerodrome and the hole blasting at underground stope in Gaofen mining company have been design by the expressions. And then the paper validates the suitableness of the stress attenuation in the area of shock wave. Compared the research achievements with in-country and overseas, this paper bring forward some innovative result as follows:
a). Brings forward the chaos theory into the research work of the principal equations. Analyzes the chaos mechanics characteristics in blasting. Puts forward academic point of view that blasting system is a typical Chaos system. Puts forward new concept of crash attracted face. It makes the research of rock principal equations change to the research of crash attracted face principal equations.
b). Put forward suitable academic explanation for the direction of blasting process and false random of fragment distribution.
c). On the basis of crash attracted face, analyzes the relationship between crash attracted face and damage, and then puts forward the crash attracted factor. According to phenomena method of continuum medium mechanics, puts the crash attracted face principal equation. Develops the blasting damage theoretical model and make it more perfectible.
d). Puts forward stress wave research method when the linear charge blasting. It regarded column stress wave as cylinder stress wave, end stress wave as spherical wave. Acquires radial stress attenuating formula of the spherical charge and cylindrical charge in completely elastic medium and the radial and axis stress attenuating formula of linear charge in the rock.
e). On the basis of validation of stress attenuating formula, the calculation formulas of hole jam length and space between chambers of linear room chamber have been achieved.
引文
1 郭声琨,汪旭光.中国工程爆破的成就与发展战略.工程爆破,1999,5(4):1~7.
2 费子文 费子文在工程爆破协会成立大会上的讲话.工程爆破,1995,1(1):3~7.
3 徐国元.坚硬矿岩爆破破裂行为机理的研究[博士学位论文].长沙:中南工业大学,1995.
4 宋守志.固体介质中的应力波北京:煤炭工业出版社1989.
5 哈努卡耶夫著.刘殿中译.矿岩爆破的物理过程.北京:冶金工业出版社.
6 Starfied A.M,Pugliese J.M.Copression waves generated in rock by cylindrical explosive charges:a comprarison between a computer model and measurements,Int.J.Rock Mech.Min.Sci.5:65---77,1968.
7 杨年华.条形药包爆破现状与展望.爆炸与冲击,1994,714(3):241~248.
8 王礼立.应力波基础.国防工业出版社,1992.
9 卢文波,朱传云等.条形药包的空腔发展过程模拟.爆炸与冲击,1996,4,16(2):171~177.
10 Kolsky,H.,Stress Wave in Solids,Clarendon Press,Oxford:1953.中译本:固体中的应力波,王仁等译,科学出版社,1958.
11 Donnell,L.H.Longitudinal Wave Transmission and Impact.Trans.ASME,1953,52(153).
12 Karman,T.von.On the Propagation of Plastic Deformation in Solids.NDRC Report A-29.1942.
13 Taylor,G.I.Propagation of Earth Waves from an Explosion.British Official Report.The Scientific Paper of G.I.Taylor,V.1,Mechanics of Solids.G.K.Univ.Press,Cambridge.1958.
14 1945.
15 Rice M.H.,McQueen R.G.,Walsh J.M.Compression of Solids by Strong Shock Waves.Solid State Physics New York:Academic Press.1958.
16 1948.
17 Malvern L.E.The Propagation of Longitudinal Waves of Plastic Deformation in a Bar of Material Exhibiting a Strain-Rate Effect.J.Appl.Mech.1951:203.
18 Perzyna.The Constitutive Equations for Rate Sensitive Plastic Material.Wave in Steel and Lead.Proc.Phy.Soc.1948.
19 张志呈.定向断裂控制爆破.重庆:重庆出版社2000,5.73.
20 谢和平.分形—岩石力学导论.北京:科学出版社.1996.
21 冯叔瑜,杨年华,张志毅.条形药包爆破技术研究.工程爆破论文集(6).1997.304-308
22 冲击动力学进展1-12,中国大百科全书(力学卷),北京:1985:58.
23 Lindholm U S,Techniques in Metals Research V(5),part 1,Ed.Bunshan R T.,New York Interscince:1971.
24 Niordson F I.Exp.Mech.,1965,5:29.
25 Maiden C J and Green S J.J.Appl.Mech.,1967,33:496.
26 周纪华,管克智.金属塑性变形阻力.机械工业出版社,1989:100.
27 李夕兵,古德生.岩石冲击动力学.长沙:中南工业大学出版社,1994.
28 刘德顺,李夕兵.冲击机械系统动力学.北京:科学出版社,1999.
29 Curran D R,Seaman L and Shockey D A.Physics Today,1977,30:46.
30 Curran D R,Se Curran D R,Seaman L and Shockey D A.Physics Reports,1987,147:253.
31 Bai Y L,Ling Z,Luo L M and Ke F J,11~(th) us Nat Cong,Appl.Mech.,Tucson USA,1990.
32 Luo L M.Experimental Study of Nucleation Law and Simpe Model of Spall Damage in an Aluminium Alloy,Master Thesis Beijing,Int Mechanics,CAS.1988.
33 Curran D R,Seaman L and Shockey D A.Physics Reports,1987,147:253.
34 Bai Y L,Ke F J and Xia M F.Acta Mechanica Sinica,1991.
35 Shan L T,Bai Y L and Zhao S D.Beijing,ISIDL,1986:753.
36 Harries,G.,A Mathematical Model of Cratering and Blasting,National Symposium on Rock Fragmentation,Adelaide,41-45,1973.
37 Favreau,R.F.台阶爆破岩石位移速度.第一届国际爆破破岩会议论文集(译文).408-417,1983.
38 杨军,金乾坤等.岩石爆破理论模型及数值计算.北京:科学出版社,1999.
39 Margolin,L.G.等.破坏的数值模拟.第一届国际爆破破岩会议论文集(译文集).218-226,1983.
40 Mchugh,S.动力引起的破坏和破碎的模拟.第一届国际爆破破岩会议论文集(译文集):234-243.
41 Kipp,M.E.and Grady,D.E.,Numerical Studies of Rock Fragmentation,SAND-79-1582,1980.
42 Chen,E.P.and Taylor,L.M.,Fracture of Brittle Rock under Dynamic Loading Condition,SAND-84-2358c,1985.
43 Kusmaul,J.S.,A New Constitutive Model for Fragmentation of Rock under Dynamic Loading,2~(na)int.Symp.On Rock fragm.By Blast.412-424,1987.
44 杨军.岩石爆破分形损伤模型及数值模拟研究.北京理工大学博士后研究工作报告.1997.
45 杨小林,王树仁.岩石爆破损伤断裂的细观机理.爆炸与冲击.2000,7,20(3):247~252.
46 杨更社,谢定义等.岩石损伤扩展力学特性的CT分析.岩石力学与工程学报.1999,6,18(3):250~254.
47 陈忠辉,唐春安等.岩石微破裂损伤演化诱致突变的数值模拟.岩土工程学报.1998,11,20(6):9~15.
48 朱维申,张强勇.节理岩体脆弹性断裂损伤模型及其工程应用.岩石力学与工程学报.1999,6,18(3):245~249.
49 陈书宇.一种混凝土损伤模型和数值方法.爆炸与冲击.1998,10,18(4):349~357.
50 高文学,杨军等.岩石动载损伤模型研究.工程爆破.1999,3,5(1):1~4.
51 杨军,金乾坤.应力波衰减基础上的爆破损伤模型.爆炸与冲击.2000,7,20(3):241~246.
52 郭文章,王树仁.节理岩体爆破数值模型及模拟研究.岩土力学.1998,9,19(3):1~8.
53 针冬望,杨军等.裂隙岩体的损伤本构模型探讨.工程爆破.1999,3,5(1):11~14.
54 杨小林,王树仁.岩石爆破损伤及数值模拟.煤炭学报.2000,2,25(1):19~22.
55 杨军,金乾坤等.岩石爆破损伤模型研究的几个问题.岩石力学与工程学报.1999,6,18(3):255~258.
56 [美]E.N.洛伦兹著.混沌的本质(The Essence of Chaos).气象出版社.
57 徐躬耦.量子混沌运动,上海科学出版社.1995.
58 边克信,刘殿中,陶和彪.工程爆破.条形药包大爆破设计中的几个问题.1995,(1).
59 朱德达.条形药包应用中的若干问题.工程爆破论文集(5).中国地质大学出版社.1993.
60 [美]格雷克.混沌:开创一门新科学.
61 Lemaitre J.Chaboche J L.Aspects phenomenologiques de larupture par endommagement.T.Mecanique Appliquee,1978,(2):317~365
62 Lemaitre J.A Continuous damage mechanics model for ductile fracture.J.Of Eng.Material Tech.,1985,(107):83~89.
63 陈子光,岩石力学性质与构造应力场.北京:地质出版社,1986.
64 余寿文.冯西桥.损伤力学.北京:清华大学出版社,1997,12.
65 谢和平.岩石混凝土损伤力学.中国矿业大学出版社,1990.
66 杨友卿.岩石强度损伤力学分析.岩石力学与工程学报.1999,18(1),23~27.
67 刘慧.峒室松动爆破的块度预测.中国矿业大学硕士论文,1995.
68 段宝福,费鸿禄.岩体性质与爆破效果的灰关联度分析.爆破.1998,9,15(3):20~25.
69 邢纪波,俞良群,张玉良.脆性无序介质冲击破碎过程及其非线性力学特性的细观模拟.爆破与冲击.1998,10,18(4):331~337.
70 曹文贵,方祖烈,唐学军.破碎岩石物理力学性质的分形度量.岩体力学.1998,7(3):27~30.
71 高峰,谢和平,巫静波.岩石损伤和破碎相关性的分形分析.岩石力学与工程学报.1999,10,18(5):503~506.
72 东兆星,周同岭.工程爆破中岩石破碎块度的理论研究.爆破.1998,6,15(2):1~4.
73 谭卓英,张建国.露天深孔爆破大块率与爆破参数之间的关系研究.爆破.1999,12,16(4):15~20.
74 张继春.节理岩体爆破的损伤机理及块度模型.中国有色金属学报.1999,9,9(3):666~670.
75 田建胜,程玉生.岩石爆破中爆炸能量分布理论与控制方法研究进展.工程爆破.1998,3,4(1):64~68.
76 题正义,孙臣良,刘烟台.爆堆块度分布的实验室模型研究.煤炭学报.2000,4,25(2):172~175.
77 曾世奇.露天矿爆堆破岩质量电铲监测研究.金属矿山.1997,4,250:13~17.
78 赵斌,于亚伦.损伤岩体破碎块度分布的预测.金属矿山.1997,5,251:17~20.
79 曾世奇.露天矿爆堆破岩质量电铲监测研究.金属矿山.1997,4,No.250.
80 Lockner D.The role of in the study of acoustic emission rock fracture,Int.J Rock Mech.Min Geomech,Abste 1993,30(7):883-899.
81 Holcomb D J Costic L S.Detecting damage surfaces in brittle materials using acoustic emission,J Apple Mech.1986,(208):536-544.
82 夏蒙棼,韩闻生等.统计细观损伤力学和损伤演化诱致突变(Ⅱ),力学进展.1995,25(2):145-173.
83 固体地球物理学论评,地震科学联合基金会主办,北京:地震出版社,1992.
84 唐春安,费鸿禄等.系统科学在岩石破裂失稳研究中的应用(一).东北大学学报.1994,15(1):24-29,
85 陈忠辉,唐春安等.岩石微破裂损伤演化诱致突变的数值模拟.岩土工程学报.1998,11,Vol.20,No.6:9-15.
86 卢春生,柯孚久等.演化诱致的计算机模拟.中国科学(A).1995,25(1):54-60.
87 刘宝琛,张家生等.岩石抗压强度的尺寸效应.岩石力学与工程学报.1998,17(6):611-614.
88 卢春生,白以龙.材料损伤断裂中的分形行为.力学进展.1990,20(5):468-477.
89 Xie Heping,Fractual Nature on Damage Evolution of Rock Materials,Application of Computer Methods in Rock Mechanics,Xian,1993,435-441
90 Cangli Liu,Ahrens,T.J.,Stress Wave Attenuation in Shock-Damaged Rock,J.Geophs.Res.,1997,102(B3),5243-5250
91 贺红亮.冲击波极端条件下脆性介质的力学响应特性及其细观结构破坏特征(博士学位论文).中国工程物理研究院,1997.
92 杨军,金乾坤等.岩石爆破理论模型及数值计算.北京:科学出版社,1999,4:48.
93 1958,8,23-31.
94 Rabotnov Yu N.On the equations of state for creep.Progress in Applied Mechanics,1963,307-315.
95 Janson J and Hult J.Fracture mechanics and damage mechanics,a combined approach.J.de Mech.Appl.,1977,1(1):59-64.
96 王军.损伤力学的理论与应用.科学出版社,1997,4.
97 Sahimi M.Brittle fracture in disordered media:from reservoir rocks to composite solids.Physics A,1992,186:160-182.
98 Xie H,Pariscau W G.Fractal character and mechanism of rock bursts.Int.J.Rock Mech.Min.Sci.,Geomech.Abstr.,1993,30(4):343-350.
99 Gao Feng,Xie Heping.Statistically fractal strength theory for brittle materials.Act Mechanic solid Sinica.1996, 9(1): 42-51.
100 曹文贵,方祖烈等.破碎岩石物理力学性质的分形度量.中国矿业.Vol.7,No.3,1998:27-30.
101 冯叔瑜,金骥良,杨年华.延长药包爆破现状的分析研究.中国地质出版社:工程爆破论文集(5),1993:304~308.
102 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.工程爆破.1999,12,5(4):20~24.
103 崔新壮,陈士海,刘德成.在裂隙岩体中传播的应力波的衰减机理.工程爆破.1999,3,5(1):18~21.
104 喻长智.古德生.炮孔堵塞长度的理论计算.矿冶工程.1999,12,19(4).
105 杨年华.条形药包端部效应的研究.爆炸与冲击.1997,7,17(3):214~219.
106 杨年华.条形药包爆破作用机理.铁科院博士论文,1994.
107 王修勇,王树仁.宽孔距爆破破碎机理的研究.1997,7,17(3):259~264.
108 陈士海,李玉民,林从谋.条形装药爆破研究.1995,10,15(4):363~373.
109 龙源,冯长根,徐全军等.爆破地震波在岩石介质中传播特性与数值计算研究.工程爆破.2000,9,6(3):8~17.
110 龙源.条形装药土中爆炸冲击波及空腔的数值模拟.爆炸与冲击.1990,1,10(1):41~46.
111 秦明武.条形药包空腔爆破的应用及机理分析.爆炸与冲击.1990,1,10(1):34~39.
112 Neiman I B.Modeling the explosion of a system of borehole charges in a scarp.Soviet mining science,1987,(2):65~77.
113 Adushkin V V.Compression wave behavior with explosion of cylindrical charge in a solid medium.Soviet mining science,1987,(4):25~26.
114 黄华,郑长青.条形药包爆破作用的计算与分析.爆破.16(2).1999.2.
115 宗奇.岩石爆破的扩腔作用及能量消耗.煤炭学报.22(4).1997.8
116 张如一,陆耀桢.实验应力分析.北京:机械工业出版社,1981.
117 喻长智.古德生.柱状药包爆破冲击波作用区域的理论计算.矿冶工程.2000,12,20(4):33-35.
118 Harries G.T.The modeling of long cylindrical charge of explosive.Holmberg R,Rustan A,eds.1~(st)int.symp.on rock fragmentation by blasting.Sweden:Published by Lulea university of technology,1983:419~481.
119 Algot Persson,Olivier Dubugnon.High speed photography analysis of cylindrical shock waves generated by explosive charges.Pror 13~(th)int.conf.on high speed photography and photons,Tokyo,1978.
120 Dally J W.A dynamic photoelastic analysis of stress wave from inclined line sources.AD756260,1972.
121 邓志勇,高尔新.条形药包动光弹动云纹试验报告.铁道部科学研究院研究报告.1995,12.
122 张志毅,戈鹤川.条形药包土中爆炸模型试验报告.铁道部科学研究院研究报告.1995,12.
123 刘舍宁.条形药包鼓包运动速度的试验研究.铁道部科学研究院研究报告.1995,12.
124 杨年华,邓志勇,刘建亮.条形药包爆破应力场研究.铁道部科学研究院报告.1995,12.
125 边克信,刘殿中.条形药包抛掷爆破的设计方法.土岩爆破论文集(2).冶金工业出版社,1985.
126 边克信等.露天大爆破.冶金工业出版社.1979.
127 朱振海,杨善元.确定膨胀波条纹级数的方法探讨.力学实践.北京:北京大学出版社,1988.
128 李翼祺,马素贞.爆炸力学.北京:科学出版社,1992,4.
129 张守中.爆炸与冲击动力学,北京:兵器工业出版社,1993.
130 杨善元.岩石爆破动力学基础,煤炭工业出版社,1991.
131 王文龙.占眼爆破.北京:煤炭工业出版社,1989.
132 龚敏,于亚伦等.爆破动态应力场量化研究原理与初步实验.爆炸与冲击.1997,1.Vol.17,No 1:43~49
133 龚敏,于亚伦,佟景伟.爆破等差与等和条纹图分析方法探讨.爆炸与冲击.1997,7,17(3):265~271.
134 采矿设计编写委员会.采矿设计手册.北京:中国建筑工业出版社.1987.
135 喻长智,古德生.无底柱分段崩落法漏斗出矿新技术探讨.湘潭矿业学院学报.1999,6,14(2):30-33.
2 费子文 费子文在工程爆破协会成立大会上的讲话.工程爆破,1995,1(1):3~7.
3 徐国元.坚硬矿岩爆破破裂行为机理的研究[博士学位论文].长沙:中南工业大学,1995.
4 宋守志.固体介质中的应力波北京:煤炭工业出版社1989.
5 哈努卡耶夫著.刘殿中译.矿岩爆破的物理过程.北京:冶金工业出版社.
6 Starfied A.M,Pugliese J.M.Copression waves generated in rock by cylindrical explosive charges:a comprarison between a computer model and measurements,Int.J.Rock Mech.Min.Sci.5:65---77,1968.
7 杨年华.条形药包爆破现状与展望.爆炸与冲击,1994,714(3):241~248.
8 王礼立.应力波基础.国防工业出版社,1992.
9 卢文波,朱传云等.条形药包的空腔发展过程模拟.爆炸与冲击,1996,4,16(2):171~177.
10 Kolsky,H.,Stress Wave in Solids,Clarendon Press,Oxford:1953.中译本:固体中的应力波,王仁等译,科学出版社,1958.
11 Donnell,L.H.Longitudinal Wave Transmission and Impact.Trans.ASME,1953,52(153).
12 Karman,T.von.On the Propagation of Plastic Deformation in Solids.NDRC Report A-29.1942.
13 Taylor,G.I.Propagation of Earth Waves from an Explosion.British Official Report.The Scientific Paper of G.I.Taylor,V.1,Mechanics of Solids.G.K.Univ.Press,Cambridge.1958.
14 1945.
15 Rice M.H.,McQueen R.G.,Walsh J.M.Compression of Solids by Strong Shock Waves.Solid State Physics New York:Academic Press.1958.
16 1948.
17 Malvern L.E.The Propagation of Longitudinal Waves of Plastic Deformation in a Bar of Material Exhibiting a Strain-Rate Effect.J.Appl.Mech.1951:203.
18 Perzyna.The Constitutive Equations for Rate Sensitive Plastic Material.Wave in Steel and Lead.Proc.Phy.Soc.1948.
19 张志呈.定向断裂控制爆破.重庆:重庆出版社2000,5.73.
20 谢和平.分形—岩石力学导论.北京:科学出版社.1996.
21 冯叔瑜,杨年华,张志毅.条形药包爆破技术研究.工程爆破论文集(6).1997.304-308
22 冲击动力学进展1-12,中国大百科全书(力学卷),北京:1985:58.
23 Lindholm U S,Techniques in Metals Research V(5),part 1,Ed.Bunshan R T.,New York Interscince:1971.
24 Niordson F I.Exp.Mech.,1965,5:29.
25 Maiden C J and Green S J.J.Appl.Mech.,1967,33:496.
26 周纪华,管克智.金属塑性变形阻力.机械工业出版社,1989:100.
27 李夕兵,古德生.岩石冲击动力学.长沙:中南工业大学出版社,1994.
28 刘德顺,李夕兵.冲击机械系统动力学.北京:科学出版社,1999.
29 Curran D R,Seaman L and Shockey D A.Physics Today,1977,30:46.
30 Curran D R,Se Curran D R,Seaman L and Shockey D A.Physics Reports,1987,147:253.
31 Bai Y L,Ling Z,Luo L M and Ke F J,11~(th) us Nat Cong,Appl.Mech.,Tucson USA,1990.
32 Luo L M.Experimental Study of Nucleation Law and Simpe Model of Spall Damage in an Aluminium Alloy,Master Thesis Beijing,Int Mechanics,CAS.1988.
33 Curran D R,Seaman L and Shockey D A.Physics Reports,1987,147:253.
34 Bai Y L,Ke F J and Xia M F.Acta Mechanica Sinica,1991.
35 Shan L T,Bai Y L and Zhao S D.Beijing,ISIDL,1986:753.
36 Harries,G.,A Mathematical Model of Cratering and Blasting,National Symposium on Rock Fragmentation,Adelaide,41-45,1973.
37 Favreau,R.F.台阶爆破岩石位移速度.第一届国际爆破破岩会议论文集(译文).408-417,1983.
38 杨军,金乾坤等.岩石爆破理论模型及数值计算.北京:科学出版社,1999.
39 Margolin,L.G.等.破坏的数值模拟.第一届国际爆破破岩会议论文集(译文集).218-226,1983.
40 Mchugh,S.动力引起的破坏和破碎的模拟.第一届国际爆破破岩会议论文集(译文集):234-243.
41 Kipp,M.E.and Grady,D.E.,Numerical Studies of Rock Fragmentation,SAND-79-1582,1980.
42 Chen,E.P.and Taylor,L.M.,Fracture of Brittle Rock under Dynamic Loading Condition,SAND-84-2358c,1985.
43 Kusmaul,J.S.,A New Constitutive Model for Fragmentation of Rock under Dynamic Loading,2~(na)int.Symp.On Rock fragm.By Blast.412-424,1987.
44 杨军.岩石爆破分形损伤模型及数值模拟研究.北京理工大学博士后研究工作报告.1997.
45 杨小林,王树仁.岩石爆破损伤断裂的细观机理.爆炸与冲击.2000,7,20(3):247~252.
46 杨更社,谢定义等.岩石损伤扩展力学特性的CT分析.岩石力学与工程学报.1999,6,18(3):250~254.
47 陈忠辉,唐春安等.岩石微破裂损伤演化诱致突变的数值模拟.岩土工程学报.1998,11,20(6):9~15.
48 朱维申,张强勇.节理岩体脆弹性断裂损伤模型及其工程应用.岩石力学与工程学报.1999,6,18(3):245~249.
49 陈书宇.一种混凝土损伤模型和数值方法.爆炸与冲击.1998,10,18(4):349~357.
50 高文学,杨军等.岩石动载损伤模型研究.工程爆破.1999,3,5(1):1~4.
51 杨军,金乾坤.应力波衰减基础上的爆破损伤模型.爆炸与冲击.2000,7,20(3):241~246.
52 郭文章,王树仁.节理岩体爆破数值模型及模拟研究.岩土力学.1998,9,19(3):1~8.
53 针冬望,杨军等.裂隙岩体的损伤本构模型探讨.工程爆破.1999,3,5(1):11~14.
54 杨小林,王树仁.岩石爆破损伤及数值模拟.煤炭学报.2000,2,25(1):19~22.
55 杨军,金乾坤等.岩石爆破损伤模型研究的几个问题.岩石力学与工程学报.1999,6,18(3):255~258.
56 [美]E.N.洛伦兹著.混沌的本质(The Essence of Chaos).气象出版社.
57 徐躬耦.量子混沌运动,上海科学出版社.1995.
58 边克信,刘殿中,陶和彪.工程爆破.条形药包大爆破设计中的几个问题.1995,(1).
59 朱德达.条形药包应用中的若干问题.工程爆破论文集(5).中国地质大学出版社.1993.
60 [美]格雷克.混沌:开创一门新科学.
61 Lemaitre J.Chaboche J L.Aspects phenomenologiques de larupture par endommagement.T.Mecanique Appliquee,1978,(2):317~365
62 Lemaitre J.A Continuous damage mechanics model for ductile fracture.J.Of Eng.Material Tech.,1985,(107):83~89.
63 陈子光,岩石力学性质与构造应力场.北京:地质出版社,1986.
64 余寿文.冯西桥.损伤力学.北京:清华大学出版社,1997,12.
65 谢和平.岩石混凝土损伤力学.中国矿业大学出版社,1990.
66 杨友卿.岩石强度损伤力学分析.岩石力学与工程学报.1999,18(1),23~27.
67 刘慧.峒室松动爆破的块度预测.中国矿业大学硕士论文,1995.
68 段宝福,费鸿禄.岩体性质与爆破效果的灰关联度分析.爆破.1998,9,15(3):20~25.
69 邢纪波,俞良群,张玉良.脆性无序介质冲击破碎过程及其非线性力学特性的细观模拟.爆破与冲击.1998,10,18(4):331~337.
70 曹文贵,方祖烈,唐学军.破碎岩石物理力学性质的分形度量.岩体力学.1998,7(3):27~30.
71 高峰,谢和平,巫静波.岩石损伤和破碎相关性的分形分析.岩石力学与工程学报.1999,10,18(5):503~506.
72 东兆星,周同岭.工程爆破中岩石破碎块度的理论研究.爆破.1998,6,15(2):1~4.
73 谭卓英,张建国.露天深孔爆破大块率与爆破参数之间的关系研究.爆破.1999,12,16(4):15~20.
74 张继春.节理岩体爆破的损伤机理及块度模型.中国有色金属学报.1999,9,9(3):666~670.
75 田建胜,程玉生.岩石爆破中爆炸能量分布理论与控制方法研究进展.工程爆破.1998,3,4(1):64~68.
76 题正义,孙臣良,刘烟台.爆堆块度分布的实验室模型研究.煤炭学报.2000,4,25(2):172~175.
77 曾世奇.露天矿爆堆破岩质量电铲监测研究.金属矿山.1997,4,250:13~17.
78 赵斌,于亚伦.损伤岩体破碎块度分布的预测.金属矿山.1997,5,251:17~20.
79 曾世奇.露天矿爆堆破岩质量电铲监测研究.金属矿山.1997,4,No.250.
80 Lockner D.The role of in the study of acoustic emission rock fracture,Int.J Rock Mech.Min Geomech,Abste 1993,30(7):883-899.
81 Holcomb D J Costic L S.Detecting damage surfaces in brittle materials using acoustic emission,J Apple Mech.1986,(208):536-544.
82 夏蒙棼,韩闻生等.统计细观损伤力学和损伤演化诱致突变(Ⅱ),力学进展.1995,25(2):145-173.
83 固体地球物理学论评,地震科学联合基金会主办,北京:地震出版社,1992.
84 唐春安,费鸿禄等.系统科学在岩石破裂失稳研究中的应用(一).东北大学学报.1994,15(1):24-29,
85 陈忠辉,唐春安等.岩石微破裂损伤演化诱致突变的数值模拟.岩土工程学报.1998,11,Vol.20,No.6:9-15.
86 卢春生,柯孚久等.演化诱致的计算机模拟.中国科学(A).1995,25(1):54-60.
87 刘宝琛,张家生等.岩石抗压强度的尺寸效应.岩石力学与工程学报.1998,17(6):611-614.
88 卢春生,白以龙.材料损伤断裂中的分形行为.力学进展.1990,20(5):468-477.
89 Xie Heping,Fractual Nature on Damage Evolution of Rock Materials,Application of Computer Methods in Rock Mechanics,Xian,1993,435-441
90 Cangli Liu,Ahrens,T.J.,Stress Wave Attenuation in Shock-Damaged Rock,J.Geophs.Res.,1997,102(B3),5243-5250
91 贺红亮.冲击波极端条件下脆性介质的力学响应特性及其细观结构破坏特征(博士学位论文).中国工程物理研究院,1997.
92 杨军,金乾坤等.岩石爆破理论模型及数值计算.北京:科学出版社,1999,4:48.
93 1958,8,23-31.
94 Rabotnov Yu N.On the equations of state for creep.Progress in Applied Mechanics,1963,307-315.
95 Janson J and Hult J.Fracture mechanics and damage mechanics,a combined approach.J.de Mech.Appl.,1977,1(1):59-64.
96 王军.损伤力学的理论与应用.科学出版社,1997,4.
97 Sahimi M.Brittle fracture in disordered media:from reservoir rocks to composite solids.Physics A,1992,186:160-182.
98 Xie H,Pariscau W G.Fractal character and mechanism of rock bursts.Int.J.Rock Mech.Min.Sci.,Geomech.Abstr.,1993,30(4):343-350.
99 Gao Feng,Xie Heping.Statistically fractal strength theory for brittle materials.Act Mechanic solid Sinica.1996, 9(1): 42-51.
100 曹文贵,方祖烈等.破碎岩石物理力学性质的分形度量.中国矿业.Vol.7,No.3,1998:27-30.
101 冯叔瑜,金骥良,杨年华.延长药包爆破现状的分析研究.中国地质出版社:工程爆破论文集(5),1993:304~308.
102 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.工程爆破.1999,12,5(4):20~24.
103 崔新壮,陈士海,刘德成.在裂隙岩体中传播的应力波的衰减机理.工程爆破.1999,3,5(1):18~21.
104 喻长智.古德生.炮孔堵塞长度的理论计算.矿冶工程.1999,12,19(4).
105 杨年华.条形药包端部效应的研究.爆炸与冲击.1997,7,17(3):214~219.
106 杨年华.条形药包爆破作用机理.铁科院博士论文,1994.
107 王修勇,王树仁.宽孔距爆破破碎机理的研究.1997,7,17(3):259~264.
108 陈士海,李玉民,林从谋.条形装药爆破研究.1995,10,15(4):363~373.
109 龙源,冯长根,徐全军等.爆破地震波在岩石介质中传播特性与数值计算研究.工程爆破.2000,9,6(3):8~17.
110 龙源.条形装药土中爆炸冲击波及空腔的数值模拟.爆炸与冲击.1990,1,10(1):41~46.
111 秦明武.条形药包空腔爆破的应用及机理分析.爆炸与冲击.1990,1,10(1):34~39.
112 Neiman I B.Modeling the explosion of a system of borehole charges in a scarp.Soviet mining science,1987,(2):65~77.
113 Adushkin V V.Compression wave behavior with explosion of cylindrical charge in a solid medium.Soviet mining science,1987,(4):25~26.
114 黄华,郑长青.条形药包爆破作用的计算与分析.爆破.16(2).1999.2.
115 宗奇.岩石爆破的扩腔作用及能量消耗.煤炭学报.22(4).1997.8
116 张如一,陆耀桢.实验应力分析.北京:机械工业出版社,1981.
117 喻长智.古德生.柱状药包爆破冲击波作用区域的理论计算.矿冶工程.2000,12,20(4):33-35.
118 Harries G.T.The modeling of long cylindrical charge of explosive.Holmberg R,Rustan A,eds.1~(st)int.symp.on rock fragmentation by blasting.Sweden:Published by Lulea university of technology,1983:419~481.
119 Algot Persson,Olivier Dubugnon.High speed photography analysis of cylindrical shock waves generated by explosive charges.Pror 13~(th)int.conf.on high speed photography and photons,Tokyo,1978.
120 Dally J W.A dynamic photoelastic analysis of stress wave from inclined line sources.AD756260,1972.
121 邓志勇,高尔新.条形药包动光弹动云纹试验报告.铁道部科学研究院研究报告.1995,12.
122 张志毅,戈鹤川.条形药包土中爆炸模型试验报告.铁道部科学研究院研究报告.1995,12.
123 刘舍宁.条形药包鼓包运动速度的试验研究.铁道部科学研究院研究报告.1995,12.
124 杨年华,邓志勇,刘建亮.条形药包爆破应力场研究.铁道部科学研究院报告.1995,12.
125 边克信,刘殿中.条形药包抛掷爆破的设计方法.土岩爆破论文集(2).冶金工业出版社,1985.
126 边克信等.露天大爆破.冶金工业出版社.1979.
127 朱振海,杨善元.确定膨胀波条纹级数的方法探讨.力学实践.北京:北京大学出版社,1988.
128 李翼祺,马素贞.爆炸力学.北京:科学出版社,1992,4.
129 张守中.爆炸与冲击动力学,北京:兵器工业出版社,1993.
130 杨善元.岩石爆破动力学基础,煤炭工业出版社,1991.
131 王文龙.占眼爆破.北京:煤炭工业出版社,1989.
132 龚敏,于亚伦等.爆破动态应力场量化研究原理与初步实验.爆炸与冲击.1997,1.Vol.17,No 1:43~49
133 龚敏,于亚伦,佟景伟.爆破等差与等和条纹图分析方法探讨.爆炸与冲击.1997,7,17(3):265~271.
134 采矿设计编写委员会.采矿设计手册.北京:中国建筑工业出版社.1987.
135 喻长智,古德生.无底柱分段崩落法漏斗出矿新技术探讨.湘潭矿业学院学报.1999,6,14(2):30-33.