环形嵌套装药产生激波特性的数值研究

IF 0.5 4区工程技术 Q4 MECHANICS

Journal of Applied Mechanics and Technical Physics Pub Date : 2024-12-09 DOI:10.1134/S0021894424030027

Jun-bao Li, Wei-bing Li, Xiao-ming Wang

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引用次数: 0

摘要

本研究旨在了解由内高爆药、介质非爆轰层和外镀铝药组成的新型复合装药所产生的激波的一些特性。研究了壳体约束和起爆方式对装药峰值超压和脉冲的影响。基于AUTODYN的映射函数，建立了确定冲击波超压空间分布的数值模型。通过验证实验，验证了所建模型的准确性。实验与仿真结果吻合较好，误差小于16.9%。不同方位的超压差随距离的增加而减小，激波剖面最终演化为球形。包壳复合装药的径向超压初始大于轴向超压，并随着距离的增加迅速衰减。与最大峰值超压相对应的方位角从裸装药的75°移动到带壳装药的110°。结果表明，内起爆复合电荷的能量利用率明显小于同时起爆复合电荷的能量利用率。

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NUMERICAL INVESTIGATION ON CHARACTERISTICS OF THE SHOCK WAVE GENERATED BY AN ANNULAR NESTED CHARGE

This study is aimed at understanding some characteristics of the shock wave generated by a novel composite charge consisting of an inner high explosive, a medium non-detonating layer, and an outer aluminized explosive. The influence of the shell restraints and initiation modes on the peak overpressure and impulse of the charge is investigated. Numerical models are developed based on the mapping function of AUTODYN for determining the spatial distribution of the shock wave overpressure. By means of validation experiments, the accuracy of the developed model is verified. It is found that the peak overpressure and impulse obtained from experiments and simulations are in good agreement, with a deviation of less than 16.9%. The difference in the overpressures at various azimuths decreases with increasing distance, and the shock wave profile eventually evolves into a spherical shape. The radial overpressure of the shelled composite charge is initially greater than that in the axial direction and decays rapidly with increasing distance. The azimuth corresponding to the maximum peak overpressure is shifted from 75° for the bare charge to 110° for the shelled charge. It is found that the energy utilization of the composite charge under inner initiation is apparently smaller than that under simultaneous initiation.

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来源期刊

Journal of Applied Mechanics and Technical Physics 物理-力学

CiteScore

1.20

自引率

16.70%

发文量

审稿时长

4-8 weeks

期刊介绍： Journal of Applied Mechanics and Technical Physics is a journal published in collaboration with the Siberian Branch of the Russian Academy of Sciences. The Journal presents papers on fluid mechanics and applied physics. Each issue contains valuable contributions on hypersonic flows; boundary layer theory; turbulence and hydrodynamic stability; free boundary flows; plasma physics; shock waves; explosives and detonation processes; combustion theory; multiphase flows; heat and mass transfer; composite materials and thermal properties of new materials, plasticity, creep, and failure.