夏甸金矿倾斜中厚矿体低贫损分段崩落法研究
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摘要
岩金矿床在我国分布较广,随着开采深度的增加和国民经济对黄金需求量的增大,越来越需要开发安全高效采矿方法。虽然在迄今为止的采矿方法理论研究与矿山生产实践中,对岩金矿床高效开采领域进行了许多研究,但一直忽视了无底柱分段崩落法,使这一安全高效采矿方法未能在岩金矿床得到实际应用。究其原因,主要是无底柱分段崩落法开采岩金矿床的工艺技术没有得到合理解决,传统工艺技术的崩落法矿石损失贫化较大,从而使岩金矿床一直成为无底柱分段崩落法的应用禁区。
本文在研究散体流动规律与无底柱分段崩落法低贫损开采模式的基础上,针对夏甸金矿倾斜中厚矿体条件,进一步改进了无底柱分段崩落法的采场结构与落矿、放矿方式。研究应用自落顶、设置回收进路与保持三个分段回采的采场结构,适应岩金矿床一般矿体铅直厚度较小的特点;应用数值模拟方法,研究了岩体变形、移动和破坏规律,揭示了诱导空区顶板冒落的机理;用中深孔与浅孔两种落矿方法,解决矿体边界多变条件下的净洁落矿技术;用两种放矿方式——回收进路截止品位放矿、其他进路按放出量控制放出——控制矿石损失贫化率,由此形成了适应岩金矿床开采条件的无底柱分段崩落法新方案。新方案在夏甸金矿得到了实际应用。
夏甸金矿Ⅶ号矿体为一典型的岩金矿床,矿岩节理裂隙发育,矿体埋藏深、倾斜中厚。原来采用干式充填法开采,在生产中存在着安全条件差、生产效率低和矿石损失大等诸多问题。应用本文改进的无底柱分段崩落法新方案,取代干式充填法,同时针对Ⅶ号中厚矿体的具体条件,解决了安全高效开采的工艺、技术问题:针对矿岩硬度与稳固性特点,研究了采动地压控制方法;基于夏甸金矿散体移动规律与矿岩容易冒落的特性,提出了诱导顶板围岩冒落形成覆盖层的方法;根据矿体产状,提出了根据上分段矿体边界设置回收进路的方法。由此,形成了小结构参数和组合式落矿、放矿方式的的无底柱分段崩落实用新方案。新方案较好地解决了岩金矿床倾斜中厚矿体应用无底柱分段崩落法矿石损失贫化大的弊端,同时较好地保持了无底柱分段崩落法采场结构简单、安全条件好、机械化程度高和生产能力大的优点。该方案在夏甸金矿实施三年以来,避免了矿山常年发生的采场安全事故,提高了采场生产能力,创造了巨大的经济效益,取得了良好的应用效果。
理论研究与在夏甸金矿的实际应用表明,本文提出的由诱导冒落、设回收进路、不小于三分段回收的采场结构与组合式落矿、放矿方式构成的无底柱分段崩落新方案,可成为一种高回采率、高效率和贫化率得到有效控制的采矿方法,用于贵金属矿床的地下开采。本文研究成果,拓宽了无底柱分段崩落法的应用范围,在国内外金属矿山具有广
The vein gold deposits distribute widely in our country. With the increase of mining depth and augmentation of gold requiring quantity by civil economy, it's more and more needed to exploit secure high-efficient mining methods. Although a lot of research on the high-efficient exploitation field of vein gold deposits is carried out in the theoretical research of mining method and production practice of mines, the sublevel caving without sill pillar has been neglected at all times. Therefore, the secure high efficient mining method doesn't gain practical application. Researching into its reasons, the primary one is that technics and technique to exploit vein deposits by sublevel caving without sill pillar haven't been solved in reason, and the traditional caving sublevel has bigger ore loss and dilution. Thereby, it turns vein gold mine into a forbidden zone to use sublevel caving without sill pillar.
On the basis of investigating the granule moving rules and low-dilution and loss exploiting mode of sublevel caving without sill pillar, aiming at the inclined and medium-to-thick orebody condition in Xiadian gold mine, the stope structure and ore blasting and drawing mode were more ameliorated in this thesis. First, the stope structure with natural falling roof, setting recovery drifts and keeping three-sublevel exploiting were investigated and applied so as to adapt the characteristics that ecumenical orebody in vein deposits had less lead-vertical thickness. Then, the deforming, moving and destroying rules of rock mass were studied, and the mechanism to induce mined areas roof fall by using the numerical simulation method Third, the ore break down clean technique on condition of changeful orebody borderline was resolved by using two kinds of blasting method medium-to-deep and shallow hole. Finally, using two ore drawing modes that ore was drawn by cut-off grade in recovery drifts, and ore in other drifts was controlled to discharge by drawn quantity, ore dilution and loss ratio were controlled Thereout, a new scheme of sublevel caving without sill pillar was formed, which adapted to the vein gold deposits exploiting conditions. The new scheme has already used in practice in Xiadian gold mine.
The No Ⅶ orebody in Xiadian gold mine is a typical vein gold deposit. Its ore-rock has developed joints and fissures, and the orebody is deep embedding and inclined, medium-thick.
本文在研究散体流动规律与无底柱分段崩落法低贫损开采模式的基础上,针对夏甸金矿倾斜中厚矿体条件,进一步改进了无底柱分段崩落法的采场结构与落矿、放矿方式。研究应用自落顶、设置回收进路与保持三个分段回采的采场结构,适应岩金矿床一般矿体铅直厚度较小的特点;应用数值模拟方法,研究了岩体变形、移动和破坏规律,揭示了诱导空区顶板冒落的机理;用中深孔与浅孔两种落矿方法,解决矿体边界多变条件下的净洁落矿技术;用两种放矿方式——回收进路截止品位放矿、其他进路按放出量控制放出——控制矿石损失贫化率,由此形成了适应岩金矿床开采条件的无底柱分段崩落法新方案。新方案在夏甸金矿得到了实际应用。
夏甸金矿Ⅶ号矿体为一典型的岩金矿床,矿岩节理裂隙发育,矿体埋藏深、倾斜中厚。原来采用干式充填法开采,在生产中存在着安全条件差、生产效率低和矿石损失大等诸多问题。应用本文改进的无底柱分段崩落法新方案,取代干式充填法,同时针对Ⅶ号中厚矿体的具体条件,解决了安全高效开采的工艺、技术问题:针对矿岩硬度与稳固性特点,研究了采动地压控制方法;基于夏甸金矿散体移动规律与矿岩容易冒落的特性,提出了诱导顶板围岩冒落形成覆盖层的方法;根据矿体产状,提出了根据上分段矿体边界设置回收进路的方法。由此,形成了小结构参数和组合式落矿、放矿方式的的无底柱分段崩落实用新方案。新方案较好地解决了岩金矿床倾斜中厚矿体应用无底柱分段崩落法矿石损失贫化大的弊端,同时较好地保持了无底柱分段崩落法采场结构简单、安全条件好、机械化程度高和生产能力大的优点。该方案在夏甸金矿实施三年以来,避免了矿山常年发生的采场安全事故,提高了采场生产能力,创造了巨大的经济效益,取得了良好的应用效果。
理论研究与在夏甸金矿的实际应用表明,本文提出的由诱导冒落、设回收进路、不小于三分段回收的采场结构与组合式落矿、放矿方式构成的无底柱分段崩落新方案,可成为一种高回采率、高效率和贫化率得到有效控制的采矿方法,用于贵金属矿床的地下开采。本文研究成果,拓宽了无底柱分段崩落法的应用范围,在国内外金属矿山具有广
The vein gold deposits distribute widely in our country. With the increase of mining depth and augmentation of gold requiring quantity by civil economy, it's more and more needed to exploit secure high-efficient mining methods. Although a lot of research on the high-efficient exploitation field of vein gold deposits is carried out in the theoretical research of mining method and production practice of mines, the sublevel caving without sill pillar has been neglected at all times. Therefore, the secure high efficient mining method doesn't gain practical application. Researching into its reasons, the primary one is that technics and technique to exploit vein deposits by sublevel caving without sill pillar haven't been solved in reason, and the traditional caving sublevel has bigger ore loss and dilution. Thereby, it turns vein gold mine into a forbidden zone to use sublevel caving without sill pillar.
On the basis of investigating the granule moving rules and low-dilution and loss exploiting mode of sublevel caving without sill pillar, aiming at the inclined and medium-to-thick orebody condition in Xiadian gold mine, the stope structure and ore blasting and drawing mode were more ameliorated in this thesis. First, the stope structure with natural falling roof, setting recovery drifts and keeping three-sublevel exploiting were investigated and applied so as to adapt the characteristics that ecumenical orebody in vein deposits had less lead-vertical thickness. Then, the deforming, moving and destroying rules of rock mass were studied, and the mechanism to induce mined areas roof fall by using the numerical simulation method Third, the ore break down clean technique on condition of changeful orebody borderline was resolved by using two kinds of blasting method medium-to-deep and shallow hole. Finally, using two ore drawing modes that ore was drawn by cut-off grade in recovery drifts, and ore in other drifts was controlled to discharge by drawn quantity, ore dilution and loss ratio were controlled Thereout, a new scheme of sublevel caving without sill pillar was formed, which adapted to the vein gold deposits exploiting conditions. The new scheme has already used in practice in Xiadian gold mine.
The No Ⅶ orebody in Xiadian gold mine is a typical vein gold deposit. Its ore-rock has developed joints and fissures, and the orebody is deep embedding and inclined, medium-thick.
引文
1.姚香.岩金地下开采技术进步与展望[J],黄金,2001,1:16~22
2.孔庆峰,赵亮,赵春荣.浅谈岩金地下矿山采矿方法的选择[J],黄金,2001,10:22~25
3.伊继申,葛玉环,张继春等.关于三山岛金矿矿岩破碎采场的采矿方法研究[J],黄金,2000,10:20~24
4.曹殿民,陈永生.地下黄金矿山开采技术的发展与展望[J],黄金学报,1999,9:183~187
5.解世俊主编.矿床地下开采理论与实践[M],冶金工业出版社,1990,12:55~57、187、202~206
6.陈清运,何玉早.中小型矿山无底柱分段崩落法结构参数优化[J],金属矿山,2005,1:23~25
7.任凤玉,刘兴国.无底柱分段崩落法采场结构与放矿方式研究[J],中国矿业,1995,11:31~34
8.董振民,范庆霞,金闯.大间距集中化无底柱采矿新工艺研究[J],金属矿山,2004,3:1~4
9.胡杏保.大间距无底柱采矿工艺在国内矿山的应用[J],矿业快报,2002,1(2):3
10. A.J.M. Spencer and James M. Hill, Non-dilatant double-sheafing theory applied to granular funnel flow in hoppers [J], Journal of Engineering Mathematics 41:55~73,2001
11. Yu. A. Ryzhkov, I. A. Ermakova. Selection of Stope Shape in Sublevel Caving Systems[J], Journal of Mining Science, 596~600
12.刘兴国,张志贵.无底柱分段崩落法不贫化放矿[J],东北大学学报,1998,10:448~451
13.胡杏保,牛有奎.无底柱分段崩落法合理放矿方式探讨[J],金属矿山,2204,2:10
14.刘兴国,张国联.论无底柱分段崩落法放矿方式[J],金属矿山,2004,2:5、6
15.柳小波,姚江,孙豁然等.无底柱分段崩落法放矿方式计算机模拟研究[J],矿业研究与开发,2004,10:20
16.任凤玉.随机介质放矿理论及其应用[M],北京:冶金工业出版社,1994,4:6~10,116~119
17.张志贵,刘兴国,孙德源等.镜铁山铁矿低贫化放矿的初步实践[J],金属矿山,1996,10:6
18.胡杏保.低贫化放矿工艺现状及应用前景[J],金属矿山,2002,1:16~18
19.王述红.低贫损开采模式——降低无底柱分段崩落法损贫的根本途径[J],有色矿冶,1998,3:1~4
20.单守智,任凤玉.矿岩软破缓倾斜中厚矿体采矿方法[J],东北大学学报(自然科学??版),1995,2:6~9
21.单守智,任凤玉,霍俊发.玉石洼铁矿提高生产能力的主要技术措施[J],化工矿山技术,1994,23(1):19~21、24
22.任凤玉,陶干强,王家宝.西石门铁矿自落顶设回收进路的无底柱分段崩落法试验研究[J],采矿技术,2001,6:38
23.郭金峰.我国地下矿山采矿方法的进展及发展趋势[J],金属矿山,2000,2:4~5
24.任天贵,宋卫东.地下难采铁矿体采矿方法问题的思考[J],金属矿山,1994,12:17~21
25.刘兴国.放矿理论基础[M],北京:冶金工业出版社,1995,6:1~5
26.乔登攀,李文增,张丹等.放矿理论研究现状存在问题及发展方向[J],中国矿业,2003,13(10):19、20
27. Jerzy Litwiniszyn. Application of Equation of Stochastic Processes to Mechanics of Loose Bodies[J], Arch. Mesh. Stos, 1956,(8): 393~411
28.王泳嘉.放矿理论研究的新方向——随机介质理论[J],东工活页论文选,1962,(8)
29. David Jolley, Computer Simulation of the Movement of Ore and Waste in an Undergroud Mining Pillar[J], the Canadian Mining and Metal. Bulletin, Vol.67, 854~859, 1968
30.陶干强.崩落矿岩流动规律及其应用研究[D],沈阳:东北大学,2003
31.任凤玉.放矿仿真模型进展及其在矿山的实际应用[J],有色矿冶,1995,6:5
32.邓红卫,周爱民,黄筱军.采场地质灾害分析评价与控制[J],采矿技术,2004,3:13~15
33. Laurance Donnelly, Fred Bell and Martin Culshaw, Some Positive and Negative Aspects of Mine Abandonment and Their Implications on Infrastructure [J], Lecture Notes in Earth Science, Volume 104/2004: 719~726
34.扬立根.掌握地压活动规律控制地压活动[J],采矿技术,1995,(31):11~12
35.康得安,刘加权.红透山铜矿深部地压显现特点及活动规律[J],有色矿冶,1998,1:15~19
36.刘同有,江荣伏,包四根.采矿动态环境中工程稳定的实践与探索[J],中国矿业,2000,5:52~56
37.明世祥,于言平.小官庄铁矿采场地压控制方法的研究[J],金属矿山,2005,1:10~11
38.何良军.小铁山矿地压活动规律及破坏形态分析[J],甘肃冶金,2003,12月增刊:1~3
39.颜荣贵,张成孝.蚀变岩型金矿开采诱发地质灾害与对策研究[J],湖南有色金属,1995,3:13~17
40.杨永良,崔道品,李雅阁.控制巷道变形的卸压爆破法[J],矿山压力与顶板管理,2005,1:33~3541.侯朝炯.采准巷道矿压与控制的技术发展途径[J],矿山压力与顶板管理,1995,No.3,4:105~108
42. M.Grodner. Fracturing around a preconditioned deep level gold mine stope[J], Geotechnical and Geological Engineering, September 1999:291~304
43.童光煦.高等硬岩采矿学[M],北京:冶金工业出版社,1995:83
44.鞠文君.应力控制法维护巷道的数值模拟研究[J],煤炭学报,1994,12:573
45.王永岩,高菲,齐君.软岩巷道爆破卸压方法的研究与实践[J],矿山压力与顶板管理,2003,1:13
46.关玉顺,杨艳国,胡占峰.在破碎岩体中维护采准巷道的试验研究[J],辽宁工程技术大学学报(自然科学版),2000,2:1~4
47.康红普.浅析维护巷道和硐室的卸压法[J],煤矿开采,1994,1:6~8
48.康红普.岩巷卸压法的研究与应用[J],煤炭科学技术,1994,5:14~16
49.于言平,许广成.小官庄铁矿复杂矿体高效开采技术研究[J],金属矿山,2004,2:4~7
50.辛洪波主编.冶金矿山难采矿体采矿技术[M],北京:冶金工业出版社,1994,4:14~228
51.汪和平,王挺,王兴明.不同进路间距地压监测及模拟显现分析[J],金属矿山,2004,1:18~25
52.任凤玉,陶干强,李清望.西石门铁矿南区崩落卸载采矿法试验研究[J],中国矿业,2003,1:39~41
53.姚清华,赖永东.采空区围岩稳定性分析[J],江西铜业工程,1995,2:10~11
54.熊仁钦.采场顶板大面积冒落的破坏性及防治原理[J],矿山压力与顶板管理,1995,3~4:35~38
55.赵文.地下巨型采空区顶板岩石的破坏与冒落[J],辽宁工程技术大学学报,2001,8:507~509
56.李清望,任凤玉,侯建光等.西石门铁矿南区采空区的冒落规律分析[J],中国矿业,2001,10(3):42~44
57.陈庆凯,任凤玉,李清望等.采空区顶板冒落防治技术措施的研究[J],金属矿山,2002,10:7~9
58.纪万斌,尹讯河.采矿塌陷灾害的成因机理及防治策略[J],中国地质灾害与防治学报,1998,8:60~61
59.刘伯华.梅山铁矿塌陷区塌落规律分析[J],金属矿山,2002,10:22-23
60.汪玉松,徐光梨,藤伟福等.杨家坪地区地面塌陷成因及破坏变形规律分析[J],安全与环境工程,2004,12:63~65
61.赵允辉,谢应强.广西新洲矿采空区塌陷的成因与机理探讨[J],中国地质灾害与防??治学报,1997,10:196~202
62.蔡保清.岩金矿山采空区处理现状及对策[J],有色矿冶,2003,4:1~3
63.李纯清,姚香.采空区处理新技术的理论研究及应用实践[J],黄金,2004,3:22~23
64.任凤玉,单守志,霍俊发.玉石洼铁矿难采矿体采矿方法研究[J],金属矿山,1994,7:12~16
65.王洪俊,任凤玉.北铭河铁矿采矿方法研究[J],中国矿业,2000,9(3):32
66.东北大学等.马钢集团桃冲矿业公司井下采空区处理方法研究鉴定资料,2005,4:1~2
67.许梦国,曹阿静,许佑伦等.武钢程潮铁矿西区放顶工程顶板地压问题的计算机模拟[J],武汉科技大学学报(自然科学版),2004,6:142~144
68.东北大学等.北洺河铁矿高效率采矿方法试验研究总结报告,2005
69.解世俊.现代地下采矿工艺技术的发展和未来采矿工艺技术改革的预测[J],有色矿冶,1994,5:1~8
70.王慧,从培章.夏甸金矿床控矿规律及找矿效果[J],黄金科学技术,2002,10:22
71.陈尚文.矿床开采中矿石的损失与贫化[M],北京:冶金工业出版社,1988,7:51~52
72.夏甸金矿,东北大学.夏甸金矿深部厚矿体低贫损分段崩落采矿方法研究技术总结报告,2005,10
73.崔学奇,栾兴凤,王培福等.夏甸金矿浮选工艺流程技术改造生产实践[J],黄金:2001,9:34
74.冶金部长沙矿山研究院等编.充填采矿法[M],冶金工业出版社出版,1978,9:358~368
75.李昌宁.矿石回收率与贫化率关系的实验研究[J],化工矿物与加工,2002,7:20~23
76. Wittke W, Pierau B. Foudations for the Design and Construction of Tunnel in Swelling rock[A]. Proceedind of the 4th International Congress on Rock Mechanics[C]. Montreux: AIME, 1979: 216~219
77.东北大学,邯邢冶金矿山管理局,西石门铁矿.西石门铁矿中区空区监控与采矿方法改进研究鉴定资料,1999,7
78.熊国华,赵怀遥.无底柱分段崩落法[M],北京:冶金工业出版社,1988,7:29
79.梁海波,张明,李仲奎等.快速拉格朗日差分法及其应用[J],红水河,16(2):21
80. FLAC-3D(Fast Lagrangian Analysis of Continua in 3 Dimensions), Vesion2.0 User's Manual[K], USA: Itasca Consuliting Group, Inc., 1997
81.张东日,陶连金,李凤仪.拉格朗日元法及其应用软件FLAC[J],矿山压力与顶板管理,1997,No3-4:224~226
82.龚纪文,席先武,王岳军等.应力与变形的数值模型方法——数值模拟软件FLAC介绍[J],华东地质学院学报,2002,9:207~22783.寇哓东,周维垣,杨若琼等.应用三维快速拉格朗日法进行三峡船闸高边坡锚固稳定与机理研究[J],土木工程学报,2002,2:68~73
84.党建印,郑建明,孙豁然.FLAC在东坪金矿空区处理中的应用[J],有色矿冶,2001,12:7
85.林韵梅主编.地压讲座[M],北京:煤炭工业出版社,1981,12:198、334~335
86.刘宝琛.矿山岩体力学概论[M],湖南科学技术出版社,1982,9:106~107
87.来兴平.大尺度采空区失稳及衍生灾害监测与预报研究[M],西安:西安地图出版社:2004,2:47~63
88.钱鸣高,石平五主编.矿山压力与岩层控制[M],中国矿业大学出版社,2003,11:25~26
89.解世俊主编.金属矿床地下开采[M],冶金工业出版社,1984,4:77~203
90.肖雄,余佑林.扇形中深孔采矿中凿岩爆破参数的试验确定及其应用[J],中国钼业,2002,2:11
91.贺小庆.降低中深孔爆破落矿大块率的途径[J],矿业快报,2003,4:23~25
92. J.A.Sanchidrian, P.Segarra and L.M.Lopez. A Practical Procedure for the Measurement of Fragmentation by Blasting by image analysis[J], Rock Mechanics and Rock Engineering, November 2005
93. G.V.Basheev, A.M.Efremov, A.G.Chenfikov. Parameter Caculation for Efficient Allocation of Charge in Boreholl during Bench Blasting of Rock[J], Journal of Mining Science, November 2003:565~572
94. M.B.Etkin, A.E.Azarkovich. Determinational of Optimal Blast Parameter for Construction of Blast-created Rock-fill Dams[J], Power Technology and Engineering, August 2001:421~427
95.张国建,郭连军,周百川.无底柱分段崩落法崩落矿石形态及其影响研究[J],中国矿业,1997,5:29
96.秦绍兵,秦绍红.井下中深孔爆破模型试验的相似性研究[J],工程爆破,2001,6:10、11
97.马建军,黄宝,江兵等.地下深孔爆破模拟相似律与模型制作[J],中国矿业,2001,10(4):38~41
98.王文杰.北铭河铁矿中深孔爆破效果试验研究[D],沈阳:东北大学,2003
99.张良学.改变地下中深孔爆破效果的途径[J],有色矿山,1997,6:25~27
100.朱殿柱,叶义成.论井下中深孔爆破反向起爆的优越性[J],国外金属矿山,2000,4:22~23
101.连民杰.孔底起爆和孔间微差联合爆破技术的应用[J],金属矿山,1998,4:47
102.陈寿如,李文兵,徐国元.自制孔底起爆药包的研究[J],中国矿业,1995,3:36~39103.薛廷河,宋锦泉,惠鸿武.孔底起爆系统在深部铜矿的应用[J],工程爆破,2001,12:72~73
104.四川水泥研究所.微差挤压爆破[M],中国建筑工业出版社,1978,3:4~6
105.钮强.岩石爆破机理[M],沈阳:东北工学院出版社,1990,8:25~138
106.彭担任,王文杰,陈广会等.微差控制爆破的作用机理与使用效果[J],煤,1996,5(1):25
107. N.A.Kassirova. Evaluation of the Efficiency of Methods of Removing External Water Pressure from Underground Structures[J], Power Technology and Engineering January 2002:41~47
108. Jacques Delouvrier, Jacques Delay, Multi-level Groundwater Pressure Monitoring at the Meuse/Haute-Marne Underground Research Laboratory, France[J], Lecture Notes in Earth Sciences, Volume 104/2004:377~384
109.雷远坤.无底柱高应力区地压活动分析及控制探讨[J],金属矿山,2002,12:26~28
110.蔡美峰,王双红.玲珑金矿深部开采三维有限元数值模拟研究[J],矿冶工程,2000,12:14~17
111. A.F.Bulat. Rock deformation Problems[J], International Applied Mechanics, December 2004:1311~1322
112. M.A.Coulthard. Application of Numerical Modeling in Undergroud Mining and Construction[J], Geotechnieal and Geological Engineering, Volume 17:373~385
113. M.S.Diederichs. Manuel Rocha Medal Recipient Rock Fracture and Collapse Under Low Confinement Conditions[J], Rock Meehnies and Rock Engineering, December 2003:339~381
114. A.K.Chakraborty, A.K.Raina, P.B.Choud, etc. Development of Rational Models for Tunnel Blast Prediction Based on a Ppararnetrical Study[J], Geotechnical and Geological Engineering, December 2004: 477~496
115.刘锦荣,钱鸣高.采准巷道围岩稳定性及其控制[J],山西煤炭,1995,5:12~14
116.唐海燕,唐绍辉,吴壮军.程潮铁矿无底柱分段崩落法采场地压活动规律及冒顶机理的分析[J],矿业研究与开发,2000,8:5
117.李兆权主编.应用岩石力学,冶金工业出版社,1994,4:42~44
118.乔兰,欧阳振华,来兴平等.三山岛金矿采空区地应力测量及其结果分析[J],北京科技大学学报,2004,12:569~571
119.孟兆兰,彭济明.高应力区矿块的回采顺序[J],矿山压力与顶板管理,2001,4:61
120.霍俊发.开采软弱破碎矿体的综合技术[J],中国矿业,1994,7:23~25
121.陶松霖主编.凿岩爆破[M].冶金工业出版社,1986,4:193~194122.刘斌.难采矿体采准巷道的支护[J],化工矿山技术,1994,2:57~59
123. M.R.Asef, D.J.Reddish, P.W.Lloyd. Rock-Support Interaction Based on Numerical Modeling[J], Geotechnical and Geological Engineering, August 1998:23~27
124. Rajendra Singh and T.N.Singh. Investigation into the Behaviour of a Support System and Roof Strata During Subleeel Caving of a Thick Coal Seam[J], Geotechnical and Geological Engineering,March 1998:21~35
125.吴爱祥,郭立,张卫锋.深井开采岩体破坏机理及工程控制方法综述[J],矿业研究与开发,2001,4:4
126. F.G.Bell and A. de Bruyn. Subsidence Problems Due to Abandoned Pillars Workings in Coal Seams[J], Bulletin of Engineering Geology and the Environment, March 1999:225~237
127.王青,史维祥主编.采矿学[J],北京:冶金工业出版社,2001,1:279~281
128.李子孝,魏书祥.地压控制原理在地下采矿设计中的运用[J],冶金矿山设计与建设,1995,5:3~7
129. L.G.Wang, S.Yamashita, F.Sugimoto etc. A Methodlogy for Predicting the in Situ Size and Shape Distribution of Rock Blocks[J], Rock Mechanics and Rock Engineering, April 2003:121~142
130.贡锁国.梅山铁矿安山岩型顶板冒落规律分析[J],矿业快报,2002,7(14):8~10
131.钱明高,刘听成.矿山压力及其控制[J],煤炭工业出版社,1993
132.谷新建.冒落型矿震成因机理的研究[J],中国安全科学学报,2004,4:60~62
133.张金卫.冒落带对地表稳定性的影响[J],新疆有色金属,2003:12:12~13
134.王家吉,郭国亭,马彬等.空区立体测量方法初探[J],黄金科学技术,2005,2:21~24
135. R.Singh, D.P.Chapman and K.B.Atkinson. Machine Vision for Dimensional Measurements in Mines[J], Geotechnical and Geological Engineering, September 1997: 185~203
2.孔庆峰,赵亮,赵春荣.浅谈岩金地下矿山采矿方法的选择[J],黄金,2001,10:22~25
3.伊继申,葛玉环,张继春等.关于三山岛金矿矿岩破碎采场的采矿方法研究[J],黄金,2000,10:20~24
4.曹殿民,陈永生.地下黄金矿山开采技术的发展与展望[J],黄金学报,1999,9:183~187
5.解世俊主编.矿床地下开采理论与实践[M],冶金工业出版社,1990,12:55~57、187、202~206
6.陈清运,何玉早.中小型矿山无底柱分段崩落法结构参数优化[J],金属矿山,2005,1:23~25
7.任凤玉,刘兴国.无底柱分段崩落法采场结构与放矿方式研究[J],中国矿业,1995,11:31~34
8.董振民,范庆霞,金闯.大间距集中化无底柱采矿新工艺研究[J],金属矿山,2004,3:1~4
9.胡杏保.大间距无底柱采矿工艺在国内矿山的应用[J],矿业快报,2002,1(2):3
10. A.J.M. Spencer and James M. Hill, Non-dilatant double-sheafing theory applied to granular funnel flow in hoppers [J], Journal of Engineering Mathematics 41:55~73,2001
11. Yu. A. Ryzhkov, I. A. Ermakova. Selection of Stope Shape in Sublevel Caving Systems[J], Journal of Mining Science, 596~600
12.刘兴国,张志贵.无底柱分段崩落法不贫化放矿[J],东北大学学报,1998,10:448~451
13.胡杏保,牛有奎.无底柱分段崩落法合理放矿方式探讨[J],金属矿山,2204,2:10
14.刘兴国,张国联.论无底柱分段崩落法放矿方式[J],金属矿山,2004,2:5、6
15.柳小波,姚江,孙豁然等.无底柱分段崩落法放矿方式计算机模拟研究[J],矿业研究与开发,2004,10:20
16.任凤玉.随机介质放矿理论及其应用[M],北京:冶金工业出版社,1994,4:6~10,116~119
17.张志贵,刘兴国,孙德源等.镜铁山铁矿低贫化放矿的初步实践[J],金属矿山,1996,10:6
18.胡杏保.低贫化放矿工艺现状及应用前景[J],金属矿山,2002,1:16~18
19.王述红.低贫损开采模式——降低无底柱分段崩落法损贫的根本途径[J],有色矿冶,1998,3:1~4
20.单守智,任凤玉.矿岩软破缓倾斜中厚矿体采矿方法[J],东北大学学报(自然科学??版),1995,2:6~9
21.单守智,任凤玉,霍俊发.玉石洼铁矿提高生产能力的主要技术措施[J],化工矿山技术,1994,23(1):19~21、24
22.任凤玉,陶干强,王家宝.西石门铁矿自落顶设回收进路的无底柱分段崩落法试验研究[J],采矿技术,2001,6:38
23.郭金峰.我国地下矿山采矿方法的进展及发展趋势[J],金属矿山,2000,2:4~5
24.任天贵,宋卫东.地下难采铁矿体采矿方法问题的思考[J],金属矿山,1994,12:17~21
25.刘兴国.放矿理论基础[M],北京:冶金工业出版社,1995,6:1~5
26.乔登攀,李文增,张丹等.放矿理论研究现状存在问题及发展方向[J],中国矿业,2003,13(10):19、20
27. Jerzy Litwiniszyn. Application of Equation of Stochastic Processes to Mechanics of Loose Bodies[J], Arch. Mesh. Stos, 1956,(8): 393~411
28.王泳嘉.放矿理论研究的新方向——随机介质理论[J],东工活页论文选,1962,(8)
29. David Jolley, Computer Simulation of the Movement of Ore and Waste in an Undergroud Mining Pillar[J], the Canadian Mining and Metal. Bulletin, Vol.67, 854~859, 1968
30.陶干强.崩落矿岩流动规律及其应用研究[D],沈阳:东北大学,2003
31.任凤玉.放矿仿真模型进展及其在矿山的实际应用[J],有色矿冶,1995,6:5
32.邓红卫,周爱民,黄筱军.采场地质灾害分析评价与控制[J],采矿技术,2004,3:13~15
33. Laurance Donnelly, Fred Bell and Martin Culshaw, Some Positive and Negative Aspects of Mine Abandonment and Their Implications on Infrastructure [J], Lecture Notes in Earth Science, Volume 104/2004: 719~726
34.扬立根.掌握地压活动规律控制地压活动[J],采矿技术,1995,(31):11~12
35.康得安,刘加权.红透山铜矿深部地压显现特点及活动规律[J],有色矿冶,1998,1:15~19
36.刘同有,江荣伏,包四根.采矿动态环境中工程稳定的实践与探索[J],中国矿业,2000,5:52~56
37.明世祥,于言平.小官庄铁矿采场地压控制方法的研究[J],金属矿山,2005,1:10~11
38.何良军.小铁山矿地压活动规律及破坏形态分析[J],甘肃冶金,2003,12月增刊:1~3
39.颜荣贵,张成孝.蚀变岩型金矿开采诱发地质灾害与对策研究[J],湖南有色金属,1995,3:13~17
40.杨永良,崔道品,李雅阁.控制巷道变形的卸压爆破法[J],矿山压力与顶板管理,2005,1:33~3541.侯朝炯.采准巷道矿压与控制的技术发展途径[J],矿山压力与顶板管理,1995,No.3,4:105~108
42. M.Grodner. Fracturing around a preconditioned deep level gold mine stope[J], Geotechnical and Geological Engineering, September 1999:291~304
43.童光煦.高等硬岩采矿学[M],北京:冶金工业出版社,1995:83
44.鞠文君.应力控制法维护巷道的数值模拟研究[J],煤炭学报,1994,12:573
45.王永岩,高菲,齐君.软岩巷道爆破卸压方法的研究与实践[J],矿山压力与顶板管理,2003,1:13
46.关玉顺,杨艳国,胡占峰.在破碎岩体中维护采准巷道的试验研究[J],辽宁工程技术大学学报(自然科学版),2000,2:1~4
47.康红普.浅析维护巷道和硐室的卸压法[J],煤矿开采,1994,1:6~8
48.康红普.岩巷卸压法的研究与应用[J],煤炭科学技术,1994,5:14~16
49.于言平,许广成.小官庄铁矿复杂矿体高效开采技术研究[J],金属矿山,2004,2:4~7
50.辛洪波主编.冶金矿山难采矿体采矿技术[M],北京:冶金工业出版社,1994,4:14~228
51.汪和平,王挺,王兴明.不同进路间距地压监测及模拟显现分析[J],金属矿山,2004,1:18~25
52.任凤玉,陶干强,李清望.西石门铁矿南区崩落卸载采矿法试验研究[J],中国矿业,2003,1:39~41
53.姚清华,赖永东.采空区围岩稳定性分析[J],江西铜业工程,1995,2:10~11
54.熊仁钦.采场顶板大面积冒落的破坏性及防治原理[J],矿山压力与顶板管理,1995,3~4:35~38
55.赵文.地下巨型采空区顶板岩石的破坏与冒落[J],辽宁工程技术大学学报,2001,8:507~509
56.李清望,任凤玉,侯建光等.西石门铁矿南区采空区的冒落规律分析[J],中国矿业,2001,10(3):42~44
57.陈庆凯,任凤玉,李清望等.采空区顶板冒落防治技术措施的研究[J],金属矿山,2002,10:7~9
58.纪万斌,尹讯河.采矿塌陷灾害的成因机理及防治策略[J],中国地质灾害与防治学报,1998,8:60~61
59.刘伯华.梅山铁矿塌陷区塌落规律分析[J],金属矿山,2002,10:22-23
60.汪玉松,徐光梨,藤伟福等.杨家坪地区地面塌陷成因及破坏变形规律分析[J],安全与环境工程,2004,12:63~65
61.赵允辉,谢应强.广西新洲矿采空区塌陷的成因与机理探讨[J],中国地质灾害与防??治学报,1997,10:196~202
62.蔡保清.岩金矿山采空区处理现状及对策[J],有色矿冶,2003,4:1~3
63.李纯清,姚香.采空区处理新技术的理论研究及应用实践[J],黄金,2004,3:22~23
64.任凤玉,单守志,霍俊发.玉石洼铁矿难采矿体采矿方法研究[J],金属矿山,1994,7:12~16
65.王洪俊,任凤玉.北铭河铁矿采矿方法研究[J],中国矿业,2000,9(3):32
66.东北大学等.马钢集团桃冲矿业公司井下采空区处理方法研究鉴定资料,2005,4:1~2
67.许梦国,曹阿静,许佑伦等.武钢程潮铁矿西区放顶工程顶板地压问题的计算机模拟[J],武汉科技大学学报(自然科学版),2004,6:142~144
68.东北大学等.北洺河铁矿高效率采矿方法试验研究总结报告,2005
69.解世俊.现代地下采矿工艺技术的发展和未来采矿工艺技术改革的预测[J],有色矿冶,1994,5:1~8
70.王慧,从培章.夏甸金矿床控矿规律及找矿效果[J],黄金科学技术,2002,10:22
71.陈尚文.矿床开采中矿石的损失与贫化[M],北京:冶金工业出版社,1988,7:51~52
72.夏甸金矿,东北大学.夏甸金矿深部厚矿体低贫损分段崩落采矿方法研究技术总结报告,2005,10
73.崔学奇,栾兴凤,王培福等.夏甸金矿浮选工艺流程技术改造生产实践[J],黄金:2001,9:34
74.冶金部长沙矿山研究院等编.充填采矿法[M],冶金工业出版社出版,1978,9:358~368
75.李昌宁.矿石回收率与贫化率关系的实验研究[J],化工矿物与加工,2002,7:20~23
76. Wittke W, Pierau B. Foudations for the Design and Construction of Tunnel in Swelling rock[A]. Proceedind of the 4th International Congress on Rock Mechanics[C]. Montreux: AIME, 1979: 216~219
77.东北大学,邯邢冶金矿山管理局,西石门铁矿.西石门铁矿中区空区监控与采矿方法改进研究鉴定资料,1999,7
78.熊国华,赵怀遥.无底柱分段崩落法[M],北京:冶金工业出版社,1988,7:29
79.梁海波,张明,李仲奎等.快速拉格朗日差分法及其应用[J],红水河,16(2):21
80. FLAC-3D(Fast Lagrangian Analysis of Continua in 3 Dimensions), Vesion2.0 User's Manual[K], USA: Itasca Consuliting Group, Inc., 1997
81.张东日,陶连金,李凤仪.拉格朗日元法及其应用软件FLAC[J],矿山压力与顶板管理,1997,No3-4:224~226
82.龚纪文,席先武,王岳军等.应力与变形的数值模型方法——数值模拟软件FLAC介绍[J],华东地质学院学报,2002,9:207~22783.寇哓东,周维垣,杨若琼等.应用三维快速拉格朗日法进行三峡船闸高边坡锚固稳定与机理研究[J],土木工程学报,2002,2:68~73
84.党建印,郑建明,孙豁然.FLAC在东坪金矿空区处理中的应用[J],有色矿冶,2001,12:7
85.林韵梅主编.地压讲座[M],北京:煤炭工业出版社,1981,12:198、334~335
86.刘宝琛.矿山岩体力学概论[M],湖南科学技术出版社,1982,9:106~107
87.来兴平.大尺度采空区失稳及衍生灾害监测与预报研究[M],西安:西安地图出版社:2004,2:47~63
88.钱鸣高,石平五主编.矿山压力与岩层控制[M],中国矿业大学出版社,2003,11:25~26
89.解世俊主编.金属矿床地下开采[M],冶金工业出版社,1984,4:77~203
90.肖雄,余佑林.扇形中深孔采矿中凿岩爆破参数的试验确定及其应用[J],中国钼业,2002,2:11
91.贺小庆.降低中深孔爆破落矿大块率的途径[J],矿业快报,2003,4:23~25
92. J.A.Sanchidrian, P.Segarra and L.M.Lopez. A Practical Procedure for the Measurement of Fragmentation by Blasting by image analysis[J], Rock Mechanics and Rock Engineering, November 2005
93. G.V.Basheev, A.M.Efremov, A.G.Chenfikov. Parameter Caculation for Efficient Allocation of Charge in Boreholl during Bench Blasting of Rock[J], Journal of Mining Science, November 2003:565~572
94. M.B.Etkin, A.E.Azarkovich. Determinational of Optimal Blast Parameter for Construction of Blast-created Rock-fill Dams[J], Power Technology and Engineering, August 2001:421~427
95.张国建,郭连军,周百川.无底柱分段崩落法崩落矿石形态及其影响研究[J],中国矿业,1997,5:29
96.秦绍兵,秦绍红.井下中深孔爆破模型试验的相似性研究[J],工程爆破,2001,6:10、11
97.马建军,黄宝,江兵等.地下深孔爆破模拟相似律与模型制作[J],中国矿业,2001,10(4):38~41
98.王文杰.北铭河铁矿中深孔爆破效果试验研究[D],沈阳:东北大学,2003
99.张良学.改变地下中深孔爆破效果的途径[J],有色矿山,1997,6:25~27
100.朱殿柱,叶义成.论井下中深孔爆破反向起爆的优越性[J],国外金属矿山,2000,4:22~23
101.连民杰.孔底起爆和孔间微差联合爆破技术的应用[J],金属矿山,1998,4:47
102.陈寿如,李文兵,徐国元.自制孔底起爆药包的研究[J],中国矿业,1995,3:36~39103.薛廷河,宋锦泉,惠鸿武.孔底起爆系统在深部铜矿的应用[J],工程爆破,2001,12:72~73
104.四川水泥研究所.微差挤压爆破[M],中国建筑工业出版社,1978,3:4~6
105.钮强.岩石爆破机理[M],沈阳:东北工学院出版社,1990,8:25~138
106.彭担任,王文杰,陈广会等.微差控制爆破的作用机理与使用效果[J],煤,1996,5(1):25
107. N.A.Kassirova. Evaluation of the Efficiency of Methods of Removing External Water Pressure from Underground Structures[J], Power Technology and Engineering January 2002:41~47
108. Jacques Delouvrier, Jacques Delay, Multi-level Groundwater Pressure Monitoring at the Meuse/Haute-Marne Underground Research Laboratory, France[J], Lecture Notes in Earth Sciences, Volume 104/2004:377~384
109.雷远坤.无底柱高应力区地压活动分析及控制探讨[J],金属矿山,2002,12:26~28
110.蔡美峰,王双红.玲珑金矿深部开采三维有限元数值模拟研究[J],矿冶工程,2000,12:14~17
111. A.F.Bulat. Rock deformation Problems[J], International Applied Mechanics, December 2004:1311~1322
112. M.A.Coulthard. Application of Numerical Modeling in Undergroud Mining and Construction[J], Geotechnieal and Geological Engineering, Volume 17:373~385
113. M.S.Diederichs. Manuel Rocha Medal Recipient Rock Fracture and Collapse Under Low Confinement Conditions[J], Rock Meehnies and Rock Engineering, December 2003:339~381
114. A.K.Chakraborty, A.K.Raina, P.B.Choud, etc. Development of Rational Models for Tunnel Blast Prediction Based on a Ppararnetrical Study[J], Geotechnical and Geological Engineering, December 2004: 477~496
115.刘锦荣,钱鸣高.采准巷道围岩稳定性及其控制[J],山西煤炭,1995,5:12~14
116.唐海燕,唐绍辉,吴壮军.程潮铁矿无底柱分段崩落法采场地压活动规律及冒顶机理的分析[J],矿业研究与开发,2000,8:5
117.李兆权主编.应用岩石力学,冶金工业出版社,1994,4:42~44
118.乔兰,欧阳振华,来兴平等.三山岛金矿采空区地应力测量及其结果分析[J],北京科技大学学报,2004,12:569~571
119.孟兆兰,彭济明.高应力区矿块的回采顺序[J],矿山压力与顶板管理,2001,4:61
120.霍俊发.开采软弱破碎矿体的综合技术[J],中国矿业,1994,7:23~25
121.陶松霖主编.凿岩爆破[M].冶金工业出版社,1986,4:193~194122.刘斌.难采矿体采准巷道的支护[J],化工矿山技术,1994,2:57~59
123. M.R.Asef, D.J.Reddish, P.W.Lloyd. Rock-Support Interaction Based on Numerical Modeling[J], Geotechnical and Geological Engineering, August 1998:23~27
124. Rajendra Singh and T.N.Singh. Investigation into the Behaviour of a Support System and Roof Strata During Subleeel Caving of a Thick Coal Seam[J], Geotechnical and Geological Engineering,March 1998:21~35
125.吴爱祥,郭立,张卫锋.深井开采岩体破坏机理及工程控制方法综述[J],矿业研究与开发,2001,4:4
126. F.G.Bell and A. de Bruyn. Subsidence Problems Due to Abandoned Pillars Workings in Coal Seams[J], Bulletin of Engineering Geology and the Environment, March 1999:225~237
127.王青,史维祥主编.采矿学[J],北京:冶金工业出版社,2001,1:279~281
128.李子孝,魏书祥.地压控制原理在地下采矿设计中的运用[J],冶金矿山设计与建设,1995,5:3~7
129. L.G.Wang, S.Yamashita, F.Sugimoto etc. A Methodlogy for Predicting the in Situ Size and Shape Distribution of Rock Blocks[J], Rock Mechanics and Rock Engineering, April 2003:121~142
130.贡锁国.梅山铁矿安山岩型顶板冒落规律分析[J],矿业快报,2002,7(14):8~10
131.钱明高,刘听成.矿山压力及其控制[J],煤炭工业出版社,1993
132.谷新建.冒落型矿震成因机理的研究[J],中国安全科学学报,2004,4:60~62
133.张金卫.冒落带对地表稳定性的影响[J],新疆有色金属,2003:12:12~13
134.王家吉,郭国亭,马彬等.空区立体测量方法初探[J],黄金科学技术,2005,2:21~24
135. R.Singh, D.P.Chapman and K.B.Atkinson. Machine Vision for Dimensional Measurements in Mines[J], Geotechnical and Geological Engineering, September 1997: 185~203
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