安庆铜矿深部开采-400m隔离矿柱稳定性分析
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摘要
采用拉格朗日非线性程序,数值模拟计算与分析了安庆铜矿l#矿体-400 m水平隔离矿柱在深部矿体开采过程中的力学效应显现规律.研究结果表明:隔离矿柱在上部矿体开采后,因覆盖岩体卸载产生了应力释放,呈现"凸起"垂直位移变形;在深部厚大矿体开采扰动下,隔离矿柱局部区域应力集中,部分区域发生塑性变形,呈现应力拉力拱现象,产生下向变形位移,与矿山常规位移变形监测结果近似.综合分析,隔离矿柱在深部矿体开采过程中整体稳定性良好.
This paper studies the stability analysis of-400 m level insulating pillar of deep excavation of l# ore-body of Anqing Copper Mine with FLAC3D.The results verify that the strain effect diminishes and bump vertical displacement deformation changes in the insulating pillar for the unloading of upper ore-body mining.Due to disturbance of large and thick in-depth mining,stress concentration and parts of the plastic deformation are formed.Tension arch and downward displacement deformation change in the insulating pillar.The displacement deformation approximates conventional displacement deformation monitoring results of the insulating pillar.The overall stability of the insulating pillar in deep mining is good.
This paper studies the stability analysis of-400 m level insulating pillar of deep excavation of l# ore-body of Anqing Copper Mine with FLAC3D.The results verify that the strain effect diminishes and bump vertical displacement deformation changes in the insulating pillar for the unloading of upper ore-body mining.Due to disturbance of large and thick in-depth mining,stress concentration and parts of the plastic deformation are formed.Tension arch and downward displacement deformation change in the insulating pillar.The displacement deformation approximates conventional displacement deformation monitoring results of the insulating pillar.The overall stability of the insulating pillar in deep mining is good.
引文
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[10]杨小聪,陈忠辉.安庆铜矿开采过程的数值模拟[J].有色金属,2002(2):82-87.
[11]蔡美峰.岩石力学与工程[M].北京:科学出版社,2002.
[12]卢志刚,李杰平.基于空间数据挖掘城市地价时空分析[J].江西理工大学学报,2011(5):75-79.
[2]钱鸣高.矿山压力及其控制[M].北京:煤炭工业出版社,1992.
[3]赵兴东.谦比希矿深部开采隔离矿柱稳定性分析[J].岩石力学与工程学报,2010(29):2619-2623.
[4]王文杰,任风玉,周宗红,等.夏甸金矿采矿方法过渡期临时矿柱尺寸确定方法研究[J].中国矿业,2007,16(4):61-63.
[5]蔡嗣经,张栋,何理.地震中尾矿库液化失稳机理及数值模拟研究[J].有色金属科学与工程,2011(4):1-6.
[6]张友锋,袁海平.FLAC3D在地震边坡稳定性分析中的应用[J].江西理工大学学报,2008(5):23-26.
[7]江文武,徐国元.复杂采矿条件下临时水平矿柱稳定性分析[J].金属矿山,2010(3):29-33.
[8]董诚,王连捷,杨小聪,等.安庆铜矿地应力测量[J].地质力学学报,2001(3):259-264.
[9]张子海.安庆铜矿的地应力测量与研究[J].有色矿山,1996(6):16-20.
[10]杨小聪,陈忠辉.安庆铜矿开采过程的数值模拟[J].有色金属,2002(2):82-87.
[11]蔡美峰.岩石力学与工程[M].北京:科学出版社,2002.
[12]卢志刚,李杰平.基于空间数据挖掘城市地价时空分析[J].江西理工大学学报,2011(5):75-79.
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