Lloyd R.Conventional warhead systems physics and engineering design[M].Progress in Astronautics and Aeronauties,AIAA Book,1998: 179.
[2]
Lloyd R.Physlcs of KE-rod warhead against TBM submunition[R],ADA364868/XAB, 1999.
[3]
Lloyd R.Overview of KE-rod warhead technology[C]∥Multinational Coference in Theater Missile Defense, Manich, Germany,1996.
[4]
Lloyd R M.Near miss warhead technology with multiple effects against submunition payloads[C]∥9th Annual AIAA/BMDO Technology Coference, Osaka, July 17-20,2000.
[5]
Schwalbe L A.Experimental and computational studies of rod-deployment mechanisms[C]∥16th International Symposium on Ballistics.San Fransico CA: American Defence Preparedness Association,1996: 347-335.
[6]
WANG Hai-fu, ZHENG Yuan-feng YU Qing-bo, et al.Impact-induced initiation and energy release behavior of reactive materials[J].Journal of Applied Physics, 2011,110(7): 074904.
[7]
WANG Hai-fu, ZHENG Yuan-feng YU Qing-bo, et al.Initiation behavior of covered explosive subjected to reactive fragment[J].Journal of Beijing Institute of Technology, 2012,21(2): 143-149.
[8]
王海福, 郑元枫, 余庆波, 等.活性破片引燃航空煤油实验研究[J].兵工学报, 2012,33(9): 1148-1152.WANG Hai-fu, ZHENG Yuan-feng, YU Qing-bo,et al.Experimental research on igniting the aviation kerosene by reactive fragment[J].Acta Armamentarh, 2012,33(9):1148-1152.
[9]
张志鸿.拦截TBM特性分析及对策.http://wencu.baidu.com/view/0d54ad27192e45361066f57c.html.[2013-04-20]ZHANG Zhi-hong.Characteristics analysis and Countermeasures of Interception TBM.http://wencu.baidu.com/view/0d54ad271 92e45361066f57c.html.[2013-04-20]
[10]
Centtury Dynamics Inc.AUTODYN theory manual[M].Rev.4.3.Houston, USA: Century Dynamics, 2003.
