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·1258· 工程科学学报,第37卷,第10期 30 30b 立面放矿 立面放矿 26 26 2n 22 18F 平面放矿 平面放矿 18 14 5 6 12 16 20 放矿口宽度,Dim 放矿口间距,m 28T(c)e 26 24 立面放矿 ■ 22 20 平面放矿 18 12 15 18 矿石层高度,m 图7矿石损失率与采场结构参数和放矿方式的关系.()矿石损失率与放矿口宽度的关系;(b)矿石损失率与放矿口间距的关系:(c)矿 石损失率与和石层高度的关系 Fig.7 Relations of ore loss ratio with stope structure parameters and draw modes:(a)relation between ore loss ratio and draw-point width:(b)rela- tion between ore loss ratio and draw-point spacing:(c)relation between ore loss ratio and ore layer height 的增大而减小,随放矿口间距的增大而增大.当相邻 Drawing Theory and Its Practice in Mine.Shenyang:Northeastern 放矿口间产生相互影响时,平面放矿方式与立面放矿 University Press,2007 方式相比,其矿石残留量更小,且崩落矿岩接触面呈近 (张志贵,刘兴国,于国立.无底柱分段崩落法无贫化放矿: 无贫化放矿理论及其在矿山的实践.沈阳:东北大学出版社, 似水平状态下降. 2007) (4)为提高矿石回收率,在放矿允许的条件下,应 [5]Ren F Y.Stochastic Medium Theory for Ore Drawing and Its Appli- 尽量增大崩落矿石层高度及放矿口尺寸,减小放矿口 cation.Beijing:Metallurgical Industry Press,1994 间距,并采用平面放矿方式.在此基础上,应综合考虑 (任凤玉.随机介质放矿理论及其应用.北京:治金工业出版 切割工程量、凿岩效率、贫化率等指标,在确保安全的 社,1994) 前提下,依据利润最大原则确定合理的采场结构参数 Li B.Incestigation of Lav Ore Drawing and Step Optimize in Chengchao Iron Mine of Wugang [Dissertation].Wuhan:Wuhan 及放矿方式. University of Science and Technology,2012 (李彬.武钢程潮铁矿采场放矿规律及放矿步距优化研究[学 参考文献 位论文].武汉:武汉科技大学,2012) [1]Brown E T.Block Caring Geomechanics.Sydney:Julius [7]Kuchta M E.A revised form of the Bergmark-Roos equation for Kruttschnitt Mineral Research Centre,2002 describing the gravity flow of broken rock.Miner Resour Eng, 2]Qiao D P.Research on Particle Movement Rule and Ore Drawing 2002,11(4):349 Theory [Dissertation].Shenyang:Northeaster University,2003 [8]Melo F,Vivanco F,Fuentes C,et al.Kinematic model for quasi (乔登攀.敢体移动规律与成矿理论研究[学位论文].沈阳: static granular displacements in block caving:dilatancy effects on 东北大学,2003) drawbody shapes.Int J Rock Mech Min Sci,2008,45 (2):248 B3]Wang HC.Ore Drawing.Beijing:Metallurgical Industry Press, ]Melo F,Vivanco F,Fuentes C,et al.On drawbody shapes:from 1982 Bergmark-Roos to kinematic models.Int Rock Mech Min Sci, (王汉昌.放矿学.北京:治金工业出版社,1982) 2007,44(1):77 4]Zhang Z G.Liu X C.Yu G L.Sublevel Caring Method without [10]Ren F Y.Influence of draw hole on ore drawing.Nonferrous Sill Pillars in the Base of Undiluted Ore Drawing:Undiluted Ore Me,1993,45(4):17工程科学学报,第 37 卷,第 10 期 图 7 矿石损失率与采场结构参数和放矿方式的关系. ( a) 矿石损失率与放矿口宽度的关系; ( b) 矿石损失率与放矿口间距的关系; ( c) 矿 石损失率与矿石层高度的关系 Fig. 7 Relations of ore loss ratio with stope structure parameters and draw modes: ( a) relation between ore loss ratio and draw-point width; ( b) relation between ore loss ratio and draw-point spacing; ( c) relation between ore loss ratio and ore layer height 的增大而减小,随放矿口间距的增大而增大. 当相邻 放矿口间产生相互影响时,平面放矿方式与立面放矿 方式相比,其矿石残留量更小,且崩落矿岩接触面呈近 似水平状态下降. ( 4) 为提高矿石回收率,在放矿允许的条件下,应 尽量增大崩落矿石层高度及放矿口尺寸,减小放矿口 间距,并采用平面放矿方式. 在此基础上,应综合考虑 切割工程量、凿岩效率、贫化率等指标,在确保安全的 前提下,依据利润最大原则确定合理的采场结构参数 及放矿方式. 参 考 文 献 [1] Brown E T. Block Caving Geomechanics. Sydney: Julius Kruttschnitt Mineral Research Centre,2002 [2] Qiao D P. Research on Particle Movement Rule and Ore Drawing Theory [Dissertation]. Shenyang: Northeastern University,2003 ( 乔登攀. 散体移动规律与放矿理论研究[学位论文]. 沈阳: 东北大学,2003) [3] Wang H C. Ore Drawing. Beijing: Metallurgical Industry Press, 1982 ( 王汉昌. 放矿学. 北京: 冶金工业出版社,1982) [4] Zhang Z G,Liu X G,Yu G L. Sublevel Caving Method without Sill Pillars in the Base of Undiluted Ore Drawing: Undiluted Ore Drawing Theory and Its Practice in Mine. Shenyang: Northeastern University Press,2007 ( 张志贵,刘兴国,于国立. 无底柱分段崩落法无贫化放矿: 无贫化放矿理论及其在矿山的实践. 沈阳: 东北大学出版社, 2007) [5] Ren F Y. Stochastic Medium Theory for Ore Drawing and Its Application. Beijing: Metallurgical Industry Press,1994 ( 任凤玉. 随机介质放矿理论及其应用. 北京: 冶金工业出版 社,1994) [6] Li B. Investigation of Law Ore Drawing and Step Optimize in Chengchao Iron Mine of Wugang [Dissertation]. Wuhan: Wuhan University of Science and Technology,2012 ( 李彬. 武钢程潮铁矿采场放矿规律及放矿步距优化研究[学 位论文]. 武汉: 武汉科技大学,2012) [7] Kuchta M E. A revised form of the Bergmark--Roos equation for describing the gravity flow of broken rock. Miner Resour Eng, 2002,11( 4) : 349 [8] Melo F,Vivanco F,Fuentes C,et al. Kinematic model for quasi static granular displacements in block caving: dilatancy effects on drawbody shapes. Int J Rock Mech Min Sci,2008,45( 2) : 248 [9] Melo F,Vivanco F,Fuentes C,et al. On drawbody shapes: from Bergmark-Roos to kinematic models. Int J Rock Mech Min Sci, 2007,44( 1) : 77 [10] Ren F Y. Influence of draw hole on ore drawing. Nonferrous Met,1993,45( 4) : 17 ·1258·