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基于岩粉分段装药的爆破技术研究
引用本文:楼晓明,陈鹏辉,周文海. 基于岩粉分段装药的爆破技术研究[J]. 有色金属(矿山部分), 2015, 67(6): 65-69
作者姓名:楼晓明  陈鹏辉  周文海
作者单位:1.福州大学紫金矿业学院,福州 350116;2.福州大学爆炸技术研究所,福州 350116,福州大学紫金矿业学院,福州 350116,福州大学紫金矿业学院,福州 350116
基金项目:福建省自然科学基金资助项目(2011J01310)
摘    要:采用LS-DYNA动力有限元分析程序,模拟计算了深孔台阶爆破条件下炮孔连续装药和采用岩粉作为间隔介质的分段装药爆破效果。对比分析了连续装药和三种不同分段比例的装药结构爆炸后孔壁的压力极值和压力衰减程度,以及通过Von Mises有效应力极值判别自由面单元是否发生破坏。计算表明,炮孔上部装药40%,下部装药60%,中间采用岩粉作为间隔介质的分段装药结构能够提高炸药能量的利用率,更有利于中上部岩石的破碎。通过对青海威斯特铜矿的爆破试验,进一步验证采用岩粉作为间隔介质的分段装药结构不仅可以降低大块率和爆破振动强度,同时还能够减少爆破综合成本。

关 键 词:分段装药  连续装药  数值模拟  LS-DYNA
收稿时间:2015-04-12
修稿时间:2015-04-15

Study on blasting technique based on rock powder deck charge
LOU Xiaoming,CHEN Penghui and ZHOU Wenhai. Study on blasting technique based on rock powder deck charge[J]. , 2015, 67(6): 65-69
Authors:LOU Xiaoming  CHEN Penghui  ZHOU Wenhai
Affiliation:1. College of Zijin Mining, Fuzhou University, Fuzhou 350116, China; 2. Research Institute of Explosion Technology, Fuzhou University, Fuzhou 350116, China,College of Zijin Mining, Fuzhou University, Fuzhou 350116, China; and College of Zijin Mining, Fuzhou University, Fuzhou 350116, China;
Abstract:The simulations are performed to analyze the effect of continuous charge and deck charge structure in bench blasting by using LS-DYNA program. There are four types of charge structures in this paper including one kind of continuous charge structure and three kinds of deck charge structures with different charge ratios. The results obtained from the simulation are used to make comparison including the peak pressure and pressure attenuation against the borehole. At the meantime, the Von Mises yield criterion is used to judge whether the damage have occurred or not in the free surface elements. It is shown that the method which charged with 40% upper, 60% lower and the rock powder in the middle can improve the utilization of explosive energy efficiently. Besides, the result shows that it is also benefit for upper rock crushing. In addition, the blasting test in West Copper Mine shows that this kind of deck charge structure can not only decrease the boulder yield and blasting vibration sharply but also reduce the overall cost of blasting effectively.
Keywords:deck charge   continuous charge   numerical simulation   LS-DYNA
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