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作 者:袁玉红 张胜 昂扬 黄寅生[1] 李瑞[4] 韩保良 张艳涛 李诗慧 YUAN Yuhong;ZHANG Sheng;ANG Yang;HUANG Yinsheng;LI Rui;HAN Baoliang;ZHANG Yantao;LI Shihui(School of Chemistry and Chemical Engineering,Nanjing University of Science and Technology,Jiangsu Nanjing,210094;Anhui Hongxing Electrical Polytron Technologies Co.,Ltd.,Anhui Hefei,231135;Anhui Military Industry Group Holdings,Anhui Hefei,231135;School of Chemical Engineering,Anhui University of Science and Technology,Anhui Huainan,232001;Military Representative Office in Hefei Area,Nanjing Military Representative Bureau,Anhui Hefei,230041)
机构地区:[1]南京理工大学化学与化工学院,江苏南京210094 [2]安徽红星机电科技股份有限公司,安徽合肥231135 [3]安徽军工集团控股有限公司,安徽合肥231135 [4]安徽理工大学化学工程学院,安徽淮南232001 [5]南京军事代表局驻合肥地区军事代表室,安徽合肥230041
出 处:《爆破器材》2023年第4期30-36,共7页Explosive Materials
摘 要:为了满足现代武器对火工品的高安全性和高可靠性的需求,对一种直列式起爆装置的结构进行了优化设计,并通过仿真计算和试验测试研究了爆炸箔组件、发火件工艺、装药结构、起爆电路等对起爆装置相关性能的影响。结果表明:通过桥箔-基板一体化、原位合成飞片及光刻无限加速膛设计,提高了起爆装置中冲击片雷管爆炸箔的能量利用率。采用HNS-IV+JO-9两级输出装药结构与起爆系统匹配后,能够满足预设1.3 kV电压可靠起爆、输出钢凹深度不小于0.3 mm的要求。In order to meet the high safety and reliability requirements of modern weapons for initiating explosive devices,the structure of an in-line detonation device was optimized and designed.The effects of exploding foil components,igniter process,charging structure,and detonating circuit on the performances of the detonating device were studied by simulation calculations and experiments.The results show that the design of bridge foil-substrate integration,in-situ synthesis of flyers,and photolithography infinite acceleration chamber has improved energy utilization efficiency of the exploding foil of the slapper detonator in the detonation device.Adopting a two-stage output charging structure of HNS-IV and JO-9,matched with the detonation system,it can meet the requirements of reliable detonation with a preset 1.3 kV voltage and an output steel concave of no less than 0.3 mm.
分 类 号:TJ450.2[兵器科学与技术—火炮、自动武器与弹药工程]
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