为了降低冲击片雷管系统体积和生产成本,设计一种在陶瓷基板的正面和背面分别制备爆炸桥箔和高压平面开关,与其他零部件组装成冲击片雷管的集成高压平面开关的冲击片雷管,并且研究了其电爆炸性能。结果表明:该冲击片雷管与使用火花隙开关的冲击片雷管放电参数基本相同,该高压平面开关能够代替火花隙开关完成冲击片雷管的起爆要求。
Abstract
In order to decrease the volume and manufacturing cost of exploding foil initiator system, an exploding foil initiator (EFI) with high voltage planar switch is designed. The exploding foil and high voltage planar switch are prepared on the observational side and the reverse side of ceramic substrate, respectively. That substrate and other parts are assembled into an exploding foil initiator, and the electrical explosion performance of the exploding foil initiator is studied. The results indicates that the exploding foil initiator with high voltage planar switch had similar initiating performance as the traditional exploding foil initiator which uses a spark gap switch. The high voltage planar switch could meet the initiating requirement of exploding foil initiator instead of spark gap switch.
关键词
兵器科学与技术 /
高压平面开关 /
小型化 /
集成化 /
冲击片雷管
{{custom_keyword}} /
Key words
ordnance science and technology /
high voltage planar switch /
miniaturization /
integration /
exploding foil initiator
{{custom_keyword}} /
基金
国防基础科研项目(JCKY2013208C002)
{{custom_fund}}
{{custom_sec.title}}
{{custom_sec.title}}
{{custom_sec.content}}
参考文献
[1] 吕军军,李明愉,曾庆轩,等.爆炸箔起爆器系统的发展[J].科技导报, 2011,29(36):61-65.
LYU Jun-jun, LI Ming-yu, ZENG Qing-xuan,et al. Development research of exploiding foil initiator system [J]. Science & Technology Review, 2011, 29(36):61-65. (in Chinese)
[2] 黄娜.冲击片雷管的参数优化及关键技术研究[D].南京:南京理工大学,2014.
HUANG Na. Research on parameters optimization and key technology of the slapper detonators [D]. Nanjing: Nanjing University of Science and Technology,2014.(in Chinese)
[3] 曾庆轩,郑志猛,李明愉,等.冲击片雷管集成制造方法研究[J].火工品,2011(5):1-3.
ZENG Qing-xuan, ZHENG Zhi-meng, LI Ming-yu, et al. Research on fabriation method of integrated slapper detonator[J]. Initiators & Pyrotecgics, 2011(5):1-3. (in Chinese)
[4] 周密,钱勇,刘燕,等.爆炸箔起爆器桥箔夹角优化设计[J].含能材料,2012,20(1):109-112.
ZHOU Mi, QIAN Yong, LIU Yan, et al. Optimal design of foil bridge included angle of exploding foil initiator[J].Chinese Journal of Energetic Materials, 2012,20(1):109-112. (in Chinese)
[5] 韩克华,任西,秦国圣,等.高压脉冲源输出特性[J].探测与控制学报,2012,34(4):24-29.
HAN Ke-hua, REN Xi, QIN Guo-sheng, et al. Output performance of high voltage pluse power source[J].Journal of Detetion & Control, 2012,34(4):24-29. (in Chinese)
[6] 薛朝妹,党瑞荣. 基于Rogowshi线圈的冲击片雷管检测[J].探测与控制学报, 2012,32(2):27-30.
XUE Zhao-mei, DANG Rui-rong. Lossless detection method for electric explosive device based on roguish coils[J]. Journal of Detection & Control, 2012, 32(2):27-30. (in Chinese)
[7] TuckerTJ, Stanton P L. Electrical gurney energy: a new concept in modeling of energy transfer from electrically exploded conductors, SAND 75-0244[R]. New Mexico, US: Sandia National Laboratory, 1975.
[8] KellerD V, Penning J R Jr.Exploding foils-the production of plane shock waves and the acceleration of thin plates[M]∥Chace W G, Moore H K, ed. Exploding Wires 2.New York:Plenum Press,1962:263-277.
{{custom_fnGroup.title_cn}}
脚注
{{custom_fn.content}}
