Managing the rock mass destruction under the explosion

IF 0.7 Q4 GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY Journal of Sustainable Mining Pub Date : 2023-08-13 DOI:10.46873/2300-3960.1391
M. Kononenko, O. Khomenko, I. Sadovenko, V. Sobolev, Yuliya Pazynich, A. Smoliński
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Abstract

Abstract Using the theory of elasticity and the main provisions of the quasi-static-wave hypothesis of the mechanism of the destruction of a solid medium under the action of an explosion, analytical modelling of the parameters of the formation of crumpling zones and crushing of the rock mass around the charging cavity during its explosive loading was carried out. Analytical models of the radii of the crumpling, intensive fragmentation and fracturing zones formed around the charging cavity in the rock mass during its explosive loading, taking into account the pressure of the explosion products, the limit of tensile-compressive strength of the rocks, their structural composition, fracturing and compaction under the action of rock pressure, were developed. Based on the change in the stress-strain state of the rock mass under the action of the explosion, numerical modelling of the radii of the zones of crumpling, intensive fragmentation and fracturing was performed using the finite element method. According to the simulation results, the power dependence of the change in the radii of the crumpling and fragmentation zones of the rock mass was determined depending on the diameter of the charging cavity, the pressure of the explosion products, and the limit of rock compressive strength. By comparing the results of analytical and numerical modelling for rigid boundary conditions of a homogeneous non-cracked rock mass, the difference in the values of the radii of the defined zones was established as being 4, 8 and 6%, respectively. The resulting analytical models of the radii of crushing zones, intensive fragmentation and fracturing increase the accuracy of estimating the parameters of rock mass destruction by explosion by up to 50% and improve the parameters of drilling and blasting operations when carrying out mining operations, special purpose cavities and rocking of the rock mass.
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控制爆炸下岩体的破坏
摘要利用弹性理论和爆炸作用下固体介质破坏机理的准静波假设的主要规定,对装药腔爆炸加载过程中起皱区形成和围岩破碎参数进行了解析建模。建立了考虑爆炸产物压力、岩石抗拉抗压极限、岩石在岩石压力作用下的结构组成、破裂和压实等因素的爆炸加载过程中,岩体内装药腔周围形成的起皱、密集破碎和破裂带半径的分析模型。基于爆炸作用下岩体应力应变状态的变化,采用有限元方法对岩体的起皱区、剧烈破碎区和破裂区半径进行了数值模拟。根据模拟结果,确定了岩体起皱破碎区半径变化与装药腔直径、爆炸产物压力和岩石抗压强度极限的幂相关关系。通过对均匀非裂纹岩体刚性边界条件的解析和数值模拟结果进行比较,确定了定义区域半径值的差异分别为4%、8%和6%。由此建立的破碎区半径、密集破碎和破裂分析模型,使岩体爆炸破坏参数的估计精度提高了50%以上,并改善了在进行采矿作业、特殊用途空腔和岩体摆动时的钻爆作业参数。
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来源期刊
Journal of Sustainable Mining
Journal of Sustainable Mining Earth and Planetary Sciences-Geology
CiteScore
1.50
自引率
10.00%
发文量
20
审稿时长
16 weeks
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