|
[1] BRANNON C A,CARLSON G K,CASTEN T P. SME Ming engineering handbook[M]. Colorado:Society for Mining Metallurgy and Exploration Incorporation,2011:1 437–1 451.
[2] ROJAS E,MOLINA R,CAVIERES P. Preudercut caving in El Teniente Mine,Chile[C]// Underground Mining Methods. Colorado:Society for Mining Metallurgy and Exploration Incorporation,2001:417–423.
[3] RECH W D. Henderson Mine[C]// Underground Mining Methods. Colorado:Society for Mining Metallurgy and Exploration Incorporation,2001:397–403.
[4] CALDER K,TOWNSEND P,RUSSELL F. Palabora underground mine project[C]// Underground Mining Methods. Colorado:Society for Mining Metallurgy and Exploration Incorporation,2001:405–409.
[5] HOUSE M,VAN AS A,DUDLEY J. Block caving lift 1 of the Northparkes E26 Mine[C]// Underground Mining Methods. Colorado:Society for Mining Metallurgy and Exploration Incorporation,2001. 411–416.
[6] BARTLETT P J. Premier diamond mine[C]// Underground Mining Methods. Colorado:Society for Mining Metallurgy and Exploration Incorporation,2001:425–430.
[7] BARBER J,DIRDJOSUWONDO S,CASTEN T,et al. Block caving the EESS deposit at P.T. Freeport Indonesia[C]// Underground Mining Methods. Colorado:Society for Mining Metallurgy and Exploration Incorporation,2001:431–438.
[8] PREECE C A. Finsch Mine:open pit to open stoping to block caving[C]// Underground Mining Methods. Colorado:Society for Mining Metallurgy and Exploration Incorporation,2001:439–453.
[9] 刘育明. 自然崩落法的发展趋势及在铜矿峪矿二期工程中的技术创新[J]. 采矿技术,2012,12(3):1–4.(LIU Yuming. Development trend of block caving and its technology innovation in the phase II project of Tongkuangyu copper mine[J]. Mining technology,2012,12(3):1–4.(in Chinese))
[10] BIENIAWSKI Z T. Engineering rock mass classifications[M]. New York:John Wiley,1989:251.
[11] LAUBSCHER D H. A geomechanics classification system for the rating of rock mass in mine design[J]. Journal of the South African Institute of Mining and Metallurgy,1990,90(10):57–273.
[12] LAUBSCHER D H,JAKUBEC J. The MRMR rock mass classification for jointed rock masses[C]// Hustrulid W A. International Case Study in Underground Mining. New York:AIME,2001:474–481.
[13] LAUBSCHER D H. Cave mine – the state of the Art[J]. The South African Institute of Mining and Metallurgy,1994,94(10):279–293.
[14] 张树茂. 铜矿峪矿自然崩落法回采实践[J]. 金属矿山,2003,(2):12–13.(ZHANG Shumao. Practice of natural stope-caving in Tongkuangyu mine[J]. Metal Mine,2003,(2):12–13.(in Chinese))
[15] 刘士奎. 自然崩落法在铜矿峪矿的成功实践[J]. 有色金属:矿山部分,1999,(2):6–10.(LIU Shikui. Successful practice of block caving in Tongkuangyu mine[J]. Nonferrous Metals:Mining Section,1999,(2):6–10.(in Chinese))
[16] 冯兴隆,王李管,毕 林,等. 基于Laubscher崩落图的矿体可崩性研究[J]. 煤炭学报,2008,33(3):268–272.(FENG Xinglong,WANG Liguan,BI Lin,et al. Research on cavability of orebody based on Laubscher¢s caving chart[J]. Journal of China Coal Society,2008,33(3):268–272.(in Chinese))
[17] 冯兴隆,王李管,毕 林,等. 基于Mathews稳定图的矿体可崩性研究[J]. 岩土工程学报,2008,30(4):600–604.(FENG Xinglong,WANG Liguan,BI Lin,et al. Collapsibility of orebody based on Mathews stability graph approach[J]. Chinese Journal of Geotechnical Engineering,2008,30(4):600–604.(in Chinese))
[18] 冯兴隆. 自然崩落法矿岩工程质量数字化评价及模拟技术研究[博士学位论文][D]. 长沙:中南大学,2010.(FENG Xinglong. Study on digital assessment and simulation technology at rock mass engineering quality of block caving[Ph. D. Thesis][D]. Beijing:Central South University,2010.(in Chinese))
[19] 董卫军,孙忠铭,王家臣,等. 矿体自然崩落过程的数值模拟研究[J]. 矿业快报,2001,10(增):333–335.(DONG Weijun,SUN Zhongming,WANG Jiachen,et al. The numerical simulation of the block caving process[J]. Express Information of Mining Industry,2001,10(Supp.):333–335.(in Chinese))
[20] 董卫军. 矿石崩落块度的三维模型与块度预测[J]. 矿冶,2002,11(2):1–3.(DONG Weijun. Three-dimensional model and prediction of ore fragment size for block caving[J]. Mining and Metallurgy,2002,11(2):1–3.(in Chinese))
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