Analysis of damage characteristics and optimization of fan-holes blasting design under high in-situ stresses高地应力下扇形孔爆破损伤特性分析及优化设计

被引:0
作者
Shuang-xia Zhang
Zhi-xiang Liu
Xiao-cong Yang
Shuai Xiong
Zhi-ying Chen
Lin-qi Huang
机构
[1] Central South University,School of Resources and Safety Engineering
[2] Beijing General Research Institute of Mining &Metallurgy,undefined
[3] National Centre for International Research on Green Metal Mining,undefined
来源
Journal of Central South University | 2023年 / 30卷
关键词
high in-situ stress; fan-holes blasting; numerical simulation; response surface method; 高地应力; 扇形孔爆破; 数值分析; 响应面法;
D O I
暂无
中图分类号
学科分类号
摘要
In deep mining, the rock mass is characterized by high in-situ stress, which makes the traditional drilling and blasting methods difficult, inefficient, and costly. To overcome this difficulty, LS-DYNA software was used to simulate the process of fan-hole blasting under in-situ stress. The blasting design was carried out for a 932.5 m depth of rock mass in combination with the actual mining conditions. The results show that the damage extent has an obvious correlation with in-situ stress level. The peak particle velocity, effective stress, and kinetic energy for rock mass were reduced under in-situ stress and the ore fragmentation was more heterogeneous. The effect of hole-bottom spacing and minimum burden on the mechanical response obtained from the simulation was analyzed by the response surface method, and the best blasting cost and effect were obtained with a hole bottom spacing of 2.48 m and a minimum burden of 1.6 m using the desirability function. This study can provide solutions to the fan-holes blasting difficulties that are encountered with deep mining.
引用
收藏
页码:1887 / 1899
页数:12
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