其中涉及到光面爆破参数的选择与试验确定,掏槽眼的布置方式、装药结构、起爆手段、管道效应、爆破效果及特点。
The selection and test determination of smooth blasting parameters, layout of snubbers, charging structure, initiation device, tubing effect, blasting effect and its properties are involved.
鉴于以上结论,进一步分析了上部空气层装药结构轴向不耦合系数与起爆方式对爆破效果的影响。
Based on these conclusions, the influence of axial decoupling coefficient of top-air-decked charge structure and detonating manner on blasting effect is analyzed here.
文章着重分析装药在目标外部接触爆破时,不同的起爆点位置产生的爆炸压力情况。
The article focused on analyzing the explosion pressure at the different position of initiation point when the charge blasted on the exterior of target under contact demolition.
通过改进爆破的孔网参数、装药量与装药结构、起爆顺序等,从而形成了光面爆破。
By improving parameters of the blasting hole, the charge, charging structure and the priming order etc, the smooth blasting is formed.
在此基础上进一步提出了三种起爆方式下线性成型装药切割目标的恰当的数值模拟方法。
On the base of above research results, suitable numerical simulation methods for the cutting process of linear shaped charge with three different ways of detonation are brought forward.
研究破片对薄盖板装药的冲击起爆问题。
The fragment impact initiation of the charge covered with a thin plate was researched.
本文介绍了爆破方案,包括药室布置、爆破参数选择、药量及装药结构、起爆网路等有关技术。
In this paper, the blasting design was introduced, including the layout of charged Chambers, the selection of blasting parameters, charge weight, charging structure and priming network.
论述了硐室爆破的设计方案,药室布置,集中药包,条形药包,爆破参数选择,装药填塞和起爆网路等。
This article stresses on designing, arrangement of bore holes concentrated charges, bar charges, selection of blasting parameters, tamping and initiating circuits.
讨论了线形聚能装药的参数、设置方法以及深孔爆破的布孔参数、装药结构、起爆方法。
The parameters and layout of linear shaped charge, and the hole-pattern parameters, charging structure and priming method for long-hole blasting were discussed.
分析了非电导爆管起爆网络的连接和传爆过程,找出了采用该起爆网络进行水下炸礁时,炮孔装药产生拒爆的原因。
The link and explosion transmission of non-electric detonator network were analyzed and the cause of misfire during underwater reef blasting with the network was found out.
文中介绍了爆破方案确定、爆破参数选择、装药量计算、起爆网络及安全措施等。
Determination of blasting scheme, selection of blasting parameters, calculation of charge weight, priming network, safety precautions and others were presented in this paper.
在分析炸药冲击起爆理论的基础上,设计了环形和环锥形传爆药柱装药结构。
Based on an analysis of the shock initiation theory of explosives, the annular structure booster pellet and the annular conical structure booster pellet were designed.
为了提高传爆药柱起爆钝感弹药的能力,根据冲击波汇聚技术原理设计了环形传爆药装药结构。
In order to improve the ability of booster pellet to initiate the insensitive ammunition, the annular booster pellet is designed based on the technique of shock wave focusing.
实践证明,采用减小炮孔参数,改变装药结构,变化起爆顺序等方法,均可提高爆破效果;
Practice shows that adopting methods such as decreasing boring parameter, changing structure of explosive setting and sequence of initiation, etc. can improve blasting effect;
载荷与缺陷是影响含缺陷装药撞击起爆的基本特征量。
It was the essential characteristics of loadings and defects for the impact ignition of explosive charges with defects.
采用AUTODYN软件对不同起爆方式下TNT装药水中爆炸模型进行了数值计算,并对计算结果进行了实验验证。
TNT charges underwater explosion models by different initiating mode were simulated by AUTODYN software, and numerical results were verified by experiments.
采用AUTODYN软件对不同起爆方式下TNT装药水中爆炸模型进行了数值计算,并对计算结果进行了实验验证。
TNT charges underwater explosion models by different initiating mode were simulated by AUTODYN software, and numerical results were verified by experiments.
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