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作 者:马春德[1,2] 王业顺[2] 胡顺喜 杜坤[1] 付伟[2]
机构地区:[1]中南大学高等研究中心,湖南长沙410083 [2]中南大学资源与安全工程学院,湖南长沙410083
出 处:《矿冶工程》2016年第1期6-10,14,共6页Mining and Metallurgical Engineering
基 金:中国博士后科学基金资助项目(2014M552163);湖南省自然科学基金资助项目(2015JJ2172)
摘 要:针对深部缓倾斜薄矿体开采生产能力小、效率低、安全性差、技术难度大等难题,依据毫秒微差爆破机理,利用非线性动力分析软件ANSYS/LS-DYNA对连续段毫秒微差爆破、跳段毫秒微差爆破和瞬间爆破方式进行了数值模拟对比分析,提出了一种适用于深部缓倾斜薄矿体的安全强采技术——浅孔多段毫秒微差爆破技术。通过对几种爆破方式在爆破岩块碰撞和爆破震动等方面的比较分析,优选出跳段毫秒微差爆破方法并应用到湘西金矿深部采场开采中。现场工业试验结果表明,新方法比传统方法在生产能力、生产效率、炸药单耗、回采周期、矿石块度、安全性等方面具有明显的技术经济优势,具有良好的推广应用价值。To deal with these technical problems, such as low productivity and efficiency, poor safety and technically difficulty in mining of gently-dipping thin ore bodies at the depth of underground mine, the nonlinear dynamic analysis software ANSYS/LS-DYNA was adopted for the numerical simulation and comparative analysis of three blasting methods ( millisecond-delay detonators with continuous number of segments, millisecond-delay detonators with interval number of segments, and instantaneous detonators) based on the mechanism of millisecond-delay blasting. Short-hole multi-segment millisecond-delay blasting technique was proposed for the safe and intensive mining of gently-dipping thin ore body at the depth of the underground mine. Based on the comparison among three blasting methods in terms of rock-to-rock collision, blasting vibration, millisecond-delay detonators with interval number of segments was selected for the deep mining in Xiangxi Gold Mine. The in-field test showed that such new mining method is superior in terms of productivity, production efficiency, explosive charge consumption, stoping cycles, fragmentation and operation safety, which is worthy of a wide application.
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