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含能材料激光诱导起爆特征波长解析 被引量:5

Characteristic wavelength analysis for laser-induced initiation in energetic material
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摘要 为了了解激光波长对炸药起爆感度影响,降低炸药激光起爆能量,通过炸药光谱、分解机理和量子化学计算,分析了常用PETN,RDX,HMX和HNS炸药的化学弱键和激光敏感波长。结果表明,PETN,RDX,HMX和HNS中最弱化学键均是硝基键—NO2,其对应的共振耦合作用激光波长均在6300nm左右;引起4种炸药电子跃迁激发的激光波长在190nm^250nm之间。在这些特征波长激光作用下,能够降低炸药的起爆能量。 In order to reduce the laser initiation energy and understand effect of laser wavelength on initiation sensitivity of explosives, the weak chemical bond and sensitive laser wavelength of PETN, RDX, HMX and HNS explosives were analyzed through spectrum, thermal decomposition mechanism and quantum mechanics calculation. Results show that the weakest chemical bond of PETN, RDX, HMX and HNS are nitryl whose correspondent resonant coupling laser wavelength is around 630Onto, and the laser wavelength inducing electronic transition of PETN, RDX, HMX and HNS explosives is among 190nm -250nm. Under the action of laser at these characteristic wavelengths, laser initiation energy of explosives can be decreased.
作者 刘建 熊鹰 蒋小华 蒋明
机构地区 中国工程物理研究院化工材料研究所
出处 《激光技术》 CAS CSCD 北大核心 2013年第6期816-819,共4页 Laser Technology
基金 中国工程物理研究院科学技术发展基金资助项目(2011B0101019)
关键词 激光技术 激光诱导起爆 光谱分析 特征波长 含能材料 laser technique laser-induced initiation spectrum analysis characteristic wavelength energetic material
分类号 TJ55 [兵器科学与技术—军事化学与烟火技术] TQ560 [化学工程—炸药化工]
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  • 1刘子如,阴翠梅,刘艳,范夕萍,赵凤起.RDX和HMX的热分解II.动力学参数和动力学补偿效应[J].火炸药学报,2004,27(4):72-75. 被引量:38
  • 2盛涤伦,马凤娥.新型起爆药DACP的合成及其主要性能[J].含能材料,2006,14(3):161-164. 被引量:16
  • 3John Fronabarger,Alex Schuman,RobertD.Chapman,Wayne Fleming and WilliamB Sanborn and Tom Massis.Chemistry and development of BNCP,a novel DDT explosive[C]//International Symposium Energetic Materials Technology.Florida,USA,1994.
  • 4John W,Fronaberger and Willian B,Sanborn,Tom Massis.Recent activities in the development of the explosive-BNCP[C]//22th International Pyrotenics Seminar.Fort Colorado,1996.
  • 5Fyfe,D.W.,Fronabarger,J.W.,and Bickes Jr.,R.W..BNCP pro-totype detonator studies using a semiconductor bridge initiator[C]// Proceedings Twentieth International Pyrotech-nics Seminar.Colorado,U.S.A,1994.
  • 6K.D.Marx,D.Ingersoll,and R.W.Bickes,Jr.Electrical model-ing of semiconductor bridge (SCB) BNCP detonators with electrochemical capacitor firing sets[C]//24th International Pyrotechnics Seminar Monterey.California,1998.
  • 7Ewick David W,Bateas Gus,Riley Scot P,Toro Daniel A.Laser-ignitable ignition composition and initiator devices and assemblies comprising the same:WO,99/00343[P].1999-01-07.
  • 8XUJiao,SHEN Rui qi,WU I.izhi, et al. Effects of dopants on laser initiation sensitivity of explosives [C]//Proceedings of 2009 International Autumn Seminar of Propellants, Explosives and Pyrotechnics. Beijing:Science Press, 2009, VIII: 378 380.
  • 9Kunz S C, Salas F J. Diode laser ignition of high ex plosives and pyrotechnics[C]//13 International Pyro- technics Seminar.[S.1.]:Grand Junction, CO, 1988.
  • 10Skocypec R D, Mahoney A R, Glass M W, et al. Modeling laser ignition of explosives and pyrotechnics effects and characterization of trandfer [C]//Proceedings of the 15th International Pyrotechnic Seminar. [S. 1.]: Boulder, Co, 1990:877-894.

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2013年 第6期

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