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固体含能工质等离子体单药粒点火特性分析 被引量:5

Study of Plasma Ignition Single Propellant
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摘要 作为固体工质电热化学 (SPETC)炮等离子体点火特性的基础性研究 ,本文利用等离子体切割机提供的等离子体源 ,对单基、多基火药的等离子体点火特性进行了实验研究 ,得出了不同类型火药在不同点火强度条件下的点火特性 。 In the solid propellant electrothermal chemical (SPETC) propulsion concept, it has been proved that plasma can be successfully used to optimize and control the propellant ignition process. The ignition properties of types of single propellants in plasma source are analyzed in the paper. The characteristic of propellants ignition in defferent plasma power is obtained, and the work provide experiment evident for the study of plasma interior ballistic ignition.
作者 戴荣 栗保明 张建奇
机构地区 南京理工大学弹道国防重点实验室
出处 《火炸药学报》 CAS CSCD 2001年第1期60-61,68,共3页 Chinese Journal of Explosives & Propellants
关键词 等离子体 点火特性 单颗粒火药 发射药 固体工质电热化学炮 SPETC炮 Plasma Propellant Ignition
分类号 TQ562 [化学工程—炸药化工] TQ565 [化学工程—炸药化工]
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参考文献4

  • 1[1]W F Oberle, B Goodell. The Role of Electrothermal-Chemical (ETC) Gun Propulsion in Enhancing Direct Fire Gun Lethality [A]. Proceedings of the 16th International Symposium on Ballistics [C]. 1996.
  • 2[2]K J Whete, G L Katulka. Electrothermal Chemical Plasma Interaction with Propellants [A]. Proceedings of the 16th International Symposium on Ballistics [C]. 1996,Ⅰ:387~396.
  • 3戴荣,栗保明,卢顺祥.固体发射药等离子体点火过程及弹道效应分析[J].爆炸与冲击,1999,19(1):84-89. 被引量:3
  • 4[4]A Chabokil. Recent Advances in Electrothermal-Chemical Gun Propulsionat United defense[J]. L P IEEE Transactions on Magnetics, 1997,33(1):284~288.

共引文献2

同被引文献39

  • 1李海元,栗保明,李鸿志.等离子体点火条件下火药燃速的实验研究[J].弹道学报,2007,19(2):78-81. 被引量:8
  • 2Beyer R A, Brant A L. Plasma ignition in a 30mm cannon [J]. Ieee Transactions on Magnetics, 2007,43 (1) :294-298.
  • 3Alimi R, Berdichevsky V. Mechanism of solid propellant combustion submitted to a high plasma flux [J]. Propellants, Explosives, Pyrotechnics, 2008,33 (2) :118-121.
  • 4[11]Nusca M,White K. Plasma radiation and convective interaction with propellant beds[R]. ARL-SR-75, Aug.1998.
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  • 7[3]White K J, Katulka G L. Electrothermal chemical plasma interaction with propellants[A]. Proceedings of the 16th International Symposium on Ballistics[C]. Vol. I:387, 1996.
  • 8[4]Grune D, Hensel D. Combustion of LOVA-solid-propellant by ignition with hot plasma gases and its influence on the interior ballistic Cycle[A]. Proceedings of the 17th International Symposium on Ballistics[C]. Vol. I:359, 1998.
  • 9[5]Sten Andreasson, Elisabeth Bemm. ETC closed-vessel experiments with alkali-doped propellants[J]. IEEE transactions on magnetics, Vol.39, No.1:202, 2003.
  • 10[6]杨小铭.电容储能脉冲成形网络及其大功率器件特性研究[D].南京:南京理工大学,2002.

引证文献5

二级引证文献18

火炸药学报
2001年 第1期

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