Experimental study on explosion dispersion process of a multi-layer composite charge under different initiation modes 被引量：5

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摘要 The influe nce of initiation modes on the explosive dispersion process of the multi-layer co mposite charge(MCC) was studied.Overpressure sensors and high-speed photography system were used to investigate the energy release process of an MCC with a specific structure.The shock wave pressure and explosive dispersion characteristics of the MCC under different initiation modes were compared.The forming and expanding process of the shock wave of the composite charge under different initiation modes was determined.The separation position of the shock wave and fireball interface was determined.The calculation formulas of the shock radius and overpressure of the composite charge are presented.The radius of the shock wave of the composite charge was significantly affected by the initiation mode.Moreover,the development process of the composite explosive fireball under different initiation modes was analyzed,the variation rules of the composite charge dispersion radius and fireball dispersion velocity with time were obtained under the different initiation modes,the explosion energy release rate of composite charge under simultaneous initiation modes was the highest,and the peak overpressure under the simultaneous initiation mode was 1.61 times that of central single-point initiation.

作者 Xiao-wen Hong Wei-bing Li Wen-bin Li He-yang Xu Bo-liang Wang Wei Xiao

机构地区 ZNDY of Ministerial Key Laboratory School of Chemical Engineering

出处《Defence Technology（防务技术）》 SCIE EI CAS CSCD 2020年第4期883-892,共10页 Defence Technology

关键词 Composite charge Initiation mode Blast wave OVERPRESSURE Dispersion radius

分类号 TJ410.34 [兵器科学与技术—火炮、自动武器与弹药工程]

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参考文献2

1Mark REYNOLDS,William HUNTINGTON-THRESHER.Development of tuneable effects warheads[J].Defence Technology（防务技术）,2016,12(3):255-262. 被引量：13
2郑波,陈力,丁雁生,刘炜,刘学柱,朱鸿瑞,王志芳.温压炸药爆炸抛撒的运动规律[J].爆炸与冲击,2008,28(5):433-437. 被引量：15

二级参考文献10

1Anna E W. Aspects of thermobaric weaponry[J]. ADF Health, 2003,4(1):3-6.
2Zhang F, Frost D L, Thibault P A, et al. Explosive dispersal of solid particles[J]. Shock Waves, 2001,10:431- 443.
3Haskins P. Controllable output warhead, EP2564150A1, 2011.
4Colclough E. A novel tuneable effects explosive charge, 2012 InsensitiveMunitions&Energetic MaterialsTechnology Symposium, LasVegas, 2012.
5N. N. SPLIT-X v5.2.10, An Expert System for Design of FragmentationWarheads, NUMERICS GmbH, Petershausen, Germany, 2005. User’sManual.
6Goldthorpe B, Butler A, Church P. A wide ranging constitutive model forBCC steels. Journal de Physique 1994;C8-471.
7Goldthorpe B. A path dependent model for ductile fracture. Journal dePhysique 1997;7:C3-705.
8Cornish R, Porter D, Church P, Gould P, Andrews T, Proud B, et al. ElertM, Furnish MD, Chau R, Holmes NC, Nguyen J, editors. Comparison ofPorter-Gould constitutive model with compression test data forHTPB/SUGAR. Shock compression of condensed matter – 2007. Melville,NY: American Institute of Physics; 2007. p. 777–80.
9Carleone J. Tactical Missile warheads, vol. 155. 1993. p. 120–1 Table 19.
10刘庆明,范宝春,李鸿志.两相介质中火焰诱导激波现象的研究[J].爆炸与冲击,1997,17(4):311-317. 被引量：3

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2姬建荣,苏健军,王胜强.小型爆炸容器中TNT/Al炸药的后燃烧性能[J].火炸药学报,2013,36(3):46-49. 被引量：5
3袁涛,罗永锋,尚爱国,罗昆升,高洪泉.爆炸烟云中粒子运动的数值模拟[J].爆炸与冲击,2013,33(5):556-560. 被引量：2
4冯博,王晓峰,冯晓军,田轩,徐洪涛.黏结剂含量对含铝炸药燃烧能量的影响[J].爆破器材,2014,43(4):37-41.
5冯博,王晓峰,田轩,冯晓军,徐洪涛.包覆工艺对HMX基含铝炸药燃烧能量的影响[J].火炸药学报,2014,37(5):58-61. 被引量：3
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8昝文涛,洪滔,董贺飞.铝粉尘云团爆轰温压效应的数值模拟[J].兵工学报,2018,39(1):101-110. 被引量：4
9冯凇,饶国宁,彭金华,王伯良.温压炸药水中爆炸的后燃反应研究[J].高压物理学报,2018,32(3):128-135.
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1郑波,陈力,丁雁生,刘炜,刘学柱,朱鸿瑞,王志芳.温压炸药爆炸抛撒的运动规律[J].爆炸与冲击,2008,28(5):433-437. 被引量：15
2王建灵,郭炜,冯晓军.TNT、PBX和Hexel空中爆炸冲击波参数的实验研究[J].火炸药学报,2008,31(6):42-44. 被引量：26
3仲倩,王伯良,黄菊,惠君明.TNT空中爆炸超压的相似律[J].火炸药学报,2010,33(4):32-35. 被引量：45
4高旭东,郭敏,孙韬,刘娟.炮射温压弹对人员目标的毁伤效能研究[J].弹箭与制导学报,2011,31(3):123-125. 被引量：9
5彭翠枝,范夕萍,任晓雪,张培,王敬念,王昕.国外火炸药技术发展新动向分析[J].火炸药学报,2013,36(3):1-5. 被引量：26
6向梅,黄毅民,饶国宁,彭金华.不同升温速率下复合药柱烤燃实验与数值模拟研究[J].爆炸与冲击,2013,33(4):394-400. 被引量：22
7张玉磊,苏健军,姬建荣,苟兵旺,何性顺,闫潇敏.超压测试方法对炸药TNT当量计算结果的影响[J].火炸药学报,2014,37(3):16-19. 被引量：10
8周涛,程淑杰,王辉,沈飞.DNTF基含铝炸药复合装药的驱动特性[J].火炸药学报,2015,38(5):46-50. 被引量：12
9张玉磊,王胜强,袁建飞,李芝绒.不同量级TNT爆炸冲击波参数相似律实验研究[J].弹箭与制导学报,2016,36(6):53-56. 被引量：18
10段晓瑜,郭学永,焦清介,赵倩,张静元,张庆明.铝粉粒度和铝氧比对含铝炸药在密闭空间内爆炸特性的影响[J].含能材料,2017,25(6):472-478. 被引量：8

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