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首页 > 过刊浏览>2022年第30卷第3期 >204-213. DOI:10.11943/CJEM2021014
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叠层复合装药殉爆安全性试验及数值模拟
作者:
作者单位:

1.中国工程物理研究院化工材料研究所, 四川 绵阳 621999;2.中国工程物理研究院安全弹药研发中心, 四川 绵阳 621999

作者简介:

李兴隆(1988-),男,副研究员,从事安全弹药设计与评估研究。e-mail:lixinglong@caep.cn

通讯作者:

路中华(1977-),男,研究员,从事安全弹药设计与评估研究。e-mail:luzhonghua@163.com

基金项目:

国家自然科学基金面上项目(11572359)资助


Sympathetic Detonation Test and Simulation of Laminated Composite Charge
Author:
Affiliation:

1.Institute of Chemical Materials, China Academy of Engineering Physics, Mianyang 621999, China;2.Robust Munitions Center, China Academy of Engineering Physics, Mianyang 621999, China

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    摘要:

    叠层复合装药是由两种或两种以上装药通过叠加的方式复合而成,可以通过装药结构设计调控其安全性和能量输出特性。为研究叠层复合装药的殉爆安全性,选取典型高能炸药与钝感炸药组合的叠层复合装药为研究对象,通过数值模拟和殉爆试验研究装药结构对临界殉爆距离的影响规律。结果表明,相比于单一高能炸药PBX-1,复合装药临界殉爆距离可减小53.3%(由7.5 mm减小至3.5 mm),能量降低22.9%;复合装药中钝感炸药厚度必须要达到特定阈值(3 mm)以上才能明显降低复合装药临界殉爆距离;随着钝感炸药占比增大,复合装药临界殉爆距离趋近于单一钝感炸药PBX-2的临界殉爆距离。

    Abstract:

    Laminated composite charge is composed of two or more different charges by way of superposition, in which the safety and power performance can be regulated through the design of charge structure. To study the sympathetic detonation safety of laminated composite charge, typical composite charges which contain both the high energy charge and insensitive charge were selected as research objects. The effect of different charges structure on critical sympathetic detonation distance was explored through numerical simulation and sympathetic detonation tests. Results showed that, compared to simple high energy charge, the sympathetic detonation of composite charge decreases 53.3%(from 7.5 mm decreases to 3.5 mm), while energy decreases 22.9%. The thickness of insensitive charge must reach a certain threshold(3 mm) in order to reduce the critical sympathetic detonation distance obviously. As the content of insensitive charge increases, the critical sympathetic detonation distance is closer to insensitive charge.

    表 2 PBXN-109反应速率方程参数[14-15]Table 2 Ignition and growth reactive models parameters for PBXN-109[14-15]
    表 4 PBX-1与PBX-2状态方程参数[17-19]Table 4 The EOS of JWL for PBX-1 and PBX-2[17-19]
    表 7 叠层复合装药殉爆试验结果Table 7 Results of sympathetic detonation tests for laminated composite charge
    表 5 PBX-1与PBX-2反应速率方程参数[17-19]Table 5 Ignition and growth reactive models parameters for PBX-1 and PBX-2[17-19]
    表 1 PBXN-109状态方程参数[14-15]Table 1 The EOS of JWL for PBXN-109[14-15]
    图1 殉爆试验布局示意图Fig.1 Sketch of sympathetic detonation test
    图2 爆轰波阵面在叠层复合装药中传播示意图Fig.2 Propagation of detonation wave in laminated composite charge
    图3 PBXN-109殉爆试验仿真模型图Fig.3 Simulation model of sympathetic detonation test for PBXN-109
    图4 叠层复合装药殉爆数值模型Fig.4 Simulation model of sympathetic detonation test for laminated composite charge
    图5 被发装药内部压力曲线(R=9 mm)Fig.5 Pressure of acceptor charge(R=9 mm)
    图6 被发装药内部压力曲线(R=10 mm)Fig.6 Pressure of acceptor charge(R=10 mm)
    图7 被发装药压力曲线(R=2 mm)Fig.7 Pressure of acceptor charge(R=2 mm)
    图8 被发装药压力曲线(R=3 mm)Fig.8 Pressure of acceptor charge(R=3 mm)
    图9 叠层复合装药能量与临界殉爆距离的关系Fig.9 Relationship between energy and critical sympathetic detonation distance for laminated composite charge
    图10 殉爆试验结果(R=7 mm)Fig.10 Results of sympathetic detonation test(R=7 mm)
    图11 殉爆试验结果(R=8 mm)Fig.11 Results of sympathetic detonation test(R=8 mm)
    图14 临界殉爆距离试验值与仿真值对比Fig.14 Comparison of critical sympathetic detonation distance between test values and simulated values
    表 3 PBXN-109殉爆试验结果Table 3 Results of sympathetic detonation test for PBXN-109
    表 6 不同结构叠层复合装药临界殉爆距离Table 6 Critical sympathetic detonation distances for laminated composite charge with different structures
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引用本文

李兴隆,吴奎先,路中华,等.叠层复合装药殉爆安全性试验及数值模拟[J].含能材料, 2022, 30(3):204-213. DOI:10.11943/CJEM2021014.
LI Xing-long, WU Kui-xian, LU Zhong-hua, et al. Sympathetic Detonation Test and Simulation of Laminated Composite Charge[J]. Chinese Journal of Energetic Materials, 2022, 30(3):204-213. DOI:10.11943/CJEM2021014.

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  • 收稿日期: 2021-01-10
  • 最后修改日期: 2021-05-05
  • 录用日期: 2021-08-31
  • 在线发布日期: 2022-03-17
  • 出版日期: 2022-03-25

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