期刊文献+

铝粉粒径对销毁某未爆弹药影响的试验研究 被引量:2

Experimental Study on the Effect of Particle Size of Aluminum Powder on Destroying Some Unexploded Ordnance
下载PDF
导出
摘要 为提高某种新型未爆弹销毁方式的工作效能和操作安全性,基于销毁装置内复合高热剂自蔓延燃烧过程,利用试验分析研究了铝粉粒径大小对销毁该种未爆弹药的影响。结果表明:74~178μm范围内,铝粉粒径越大,金属熔流出口速度达到的峰值越低;同时,铝粉粒径过小(≤89μm),会导致销毁装置内复合高热剂反应过于激烈,容易出现燃爆现象;而124~178μm粒径范围的铝粉适用于榴弹弹丸、破甲弹战斗部、手榴弹、地雷等多种壳体厚度不超过9 mm的猛炸药弹丸的未爆弹销毁工作。为以后提高未爆弹销毁工作效能、保护销毁人员安全提供参考。 In order to improve the destruction efficiency and safety of some new unexploded ordnance,influence of the particle size of aluminum powder on the destruction of unexploded ordnance was experimentally studied based on the self-propagating combustion process of composite thermite in the destruction device. Results show that,in the range of 74-178 μm,the higher the particle size of aluminum powder,the lower the peak value of metal melt outlet velocity reaches. At the same time,extremely small aluminum powder particle size(≤89 μm) will lead to intense reaction of composite thermite in destruction device. While aluminum powder with particle size of 124-178 μm could be applied to the destruction of high explosive projectile with thickness of shell less than 9 mm,such as shrapnel,shaped charge warhead,hand grenade,and land mine. It will provide some references for improving the performance of unexploded ordnance destruction and protecting the safety of personnel.
机构地区 军械工程学院 [
出处 《爆破器材》 CAS 2017年第5期29-32,37,共5页 Explosive Materials
关键词 铝粉粒径 未爆弹销毁 销毁装置 金属熔流 particle size of aluminum powder destruction of unexploded explosive projectile destruction device metal melt flow
  • 相关文献

参考文献4

二级参考文献25

  • 1辛文彤,李志尊,李宝峰,朱冰,张学刚,陈波.一种野外快速焊接技术[J].焊接,2005(1):19-21. 被引量:29
  • 2王泽山 张丽华 曹欣茂.废弃火炸药的处理与再利用[M].北京:国防工业出版社,1994.4.
  • 3[1]Fischer S H,Grubelich M C.AIAA96-3018,A Survey of Combustible Metals,Thermites,and Intermetallics for Pyrotechnic Applications[A].32nd AIAA/ASME/SAE/ASEE Joint Propulsion Conference[C].July 1-3,1996/Lake Buena Vista,FL.
  • 4[2]Song Eugene.Thermite destructive device[P].U.S.Patent:US5698812,1997,12.
  • 5[3]Hampel Heinrich(BE).Hazardous material disposal,especially chemical munition disposal[P].Patent Number:DE19740089,1998,12.
  • 6[5]Burch D,Griggs J,Johnson M,Sims K.Demilitarization Technology Development for Military Munitions[A]. Proc.Int.Pyrotechnics Seminar,26th[C].2000,811-819.
  • 7Fischer S H, Grubelich M C. A survey of combustible metals, thermites,and intermetallics for pyrotechnic applications [ C]// The 32^nd AIAA/ASME/SAE/ASEE Joint Propulsion Conference, Lake Buena Vista,FL,July 1 -3,1996.
  • 8伊赫桑·巴伦,陈乃良译.纯物质热化学数据手册[M].北京:科学出版社,2003.135,588
  • 9Magnabosco I.An investigation of fusion zone microstructures in electronbeam welding of copper-stainless steel[J],Materials Science and Engineering,2006,424A:163-173.
  • 10Stewart S,Ahmed R.Contact fatigue failure evaluation of post-treated WC-NiCrBSi functionally graded thermal spray coatings[J].Wear,2004,257:962-983.

共引文献39

同被引文献25

引证文献2

二级引证文献3

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部