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PTFE基活性材料毁伤元冲击靶板毁伤效应及影响因素 被引量:3

Damage Effects and Influencing Factors of Target Plate Impacted by PTFE-Based Reactive Material Damage Element
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摘要 为探究PTFE基活性材料毁伤元对靶板的冲击毁伤效应,通过开展弹道冲击三层间隔靶板实验,研究了冲击速度、靶板结构和添加填料对聚四氟乙烯/铝(PTFE/Al)活性材料毁伤效应的影响,揭示了弹丸的冲击反应行为和靶板的侵彻毁伤过程.结果表明:提高弹丸冲击速度,靶板扩孔模式由花瓣型撕裂转变为冲塞型穿孔,动能侵彻和爆炸冲击的耦合作用可对靶板造成更大程度的结构损伤.相同冲击速度下弹丸撞击钢板产生的冲击压力高于铝板,而撞击铝板时小峰值冲击诱发的初始活化有助于提升毁伤元的能量释放率.PTFE基活性材料的毁伤效能取决于冲击动能、反应热量、能量释放率和气体生成率的共同作用,W、Ni、Mg、MnO_(2)、TiH_(2)和ZrH_(2)的添加可以显著增强PTFE/Al的反应强度和毁伤效应. To explore the impact damage effects of PTFE-based reactive material damage element on target plate,the impact speed,target plate structure and fillers on the damage effect of PTFE/Al reactive material were studied by conducting ballistic impact three-layer spacer target plate experiment,and the impact reaction behavior of projectile and the penetration damage process of target plate were revealed.The results show that increasing projectile impact speed,the boring damage mode of target plate can change from petal-shaped tearing into plug-type perforating,resulting in a greater structural damage to the target plate due to the coupling effect of kinetic energy penetration and explosive impact.At the same impact speed of the projectile,the impact pressure produced in the steel plate is higher than that produced in the aluminum plate,revealing the initial activation induced with small peak impact in the aluminum target plate is conducive to improving the energy release rate of the damage element.Synoptically,the damage effectiveness of PTFE-based reactive materials depends on the combined action of the impact kinetic energy,reaction heat,energy release rate,and gas generation rate,and the addition of W,Ni,Mg,MnO_(2),TiH_(2) and ZrH_(2) elements can also significantly enhance the reaction intensity and damage effect of PTFE/Al.
作者 吴家祥 李忠举 高振儒 李裕春 赵长啸 刘强 WU Jiaxiang;LI Zhongju;GAO Zhenru;LI Yuchun;ZHAO Changxiao;LIU Qiang(College of Field Engineering,Army Engineering University of PLA,Nanjing,Jiangsu 210007,China;69006 Troop of PLA,Urumqi,Xinjiang 830001,China)
机构地区 陆军工程大学野战工程学院 中国人民解放军
出处 《北京理工大学学报》 EI CAS CSCD 北大核心 2023年第10期1016-1025,共10页 Transactions of Beijing Institute of Technology
基金 国家自然科学基金资助项目(12102479,51673213)。
关键词 活性材料 PTFE/Al 冲击速度 反应强度 毁伤效应 reactive material PTFE/Al impact speed reaction intensity damage effect
分类号 TJ410 [兵器科学与技术—火炮、自动武器与弹药工程]
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  • 1黄辉,王泽山,黄亨建,李金山.新型含能材料的研究进展[J].火炸药学报,2005,28(4):9-13. 被引量:76
  • 2胡金彪,经福谦.用冲击压缩数据计算物质结合能的一个简便解析方法[J].高压物理学报,1990,4(3):175-186. 被引量:20
  • 3Committee on Advanced Energetic Materials and Manufacturing Technologies, National Research Council. Advanced Energetic Materials[M]. Washington: the National Academy Press, 2004. 被引量:1
  • 4Psakhie S G, Skripnyak V A. Shock Induced Chemical Processing[M]. US: Army Research Office, 1996. 被引量:1
  • 5Meyers M A. A fundamental study of shock-induced chemical reactions[R]. A842003, 1994. 被引量:1
  • 6Thadhani N, Chen E. Shock synthesis of materials workshop held in Atlanta[R]. A148003, 1995. 被引量:1
  • 7Merzhanov A G. Combustion and explosion processes in physical chemistry and technology of inorganic materials[J]. Russian Chemical Reviews, 2003,72(4):289-310. 被引量:1
  • 8Ferranti L, Thadhani N N. Dynamic Impact Characterization of Al+Fe2O3+30% Epoxy Composites Using Time Synchronized High-speed Camera and VISAR Measurements[M]. US: Materials Research Society, 2006:588-593. 被引量:1
  • 9Tomar V, Zhou M. Molecular dynamics simulations of shock-induced thermite reaction[J]. Materials Science Forum, 2004,465:157-162. 被引量:1
  • 10HE Yuan, PAN Xu-chao, HE Yong. Explosible fragment shock initiation investigation[C]∥Proceedings of International Conference on Mechanical Engineering and Mechanics. 2007:1094-1199. 被引量:1

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北京理工大学学报
2023年 第10期

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