摘要
控制弹药在意外刺激下反应烈度的缓解技术是钝感弹药的关键技术之一,对提高弹药安全性具有重要作用。为了给致力于提升弹药综合性能的科研工作者提供参考,本文在分析国外有关缓解技术的研究进展基础上,归纳总结了针对降低弹药在热、力及其复合刺激下反应烈度的结构缓解和防护设计的原理和方法,认为其核心是降低意外刺激能量和控制装药反应演化进程。在此基础上,提出了深入研究装药的点火及其反应演化机制、复合壳体技术、装药?结构?缓解一体化设计技术三个研究方向。
The mitigation technology of controlling the reaction level of munitions under accidental stimulation is one of the key technologies of insensitive munitions,which plays an important role in improving the safety of munitions.In order to provide reference for improving the comprehensive performance of munitions,the principles and methods for structural mitigation and protection design aiming at reducing the intensity reaction level of munitions under thermal,mechanical and combined stimuli were summarized,based on the analysis of the research progress of mitigation technology abroad.The core ideas of mitigation designs were reducing stimuli energy and controlling the process of reaction evolution of charges.On this basis,three directions were recommended including research in the ignition and mechanism of reaction evolution of charges,the composite shell technology,and the combined design technology for charge?structure?mitigation.
作者
黄亨建
陈科全
陈红霞
陈翔
宋乙丹
路中华
李兴隆
寇剑锋
HUANG Heng jian;CHEN Ke quan;CHEN Hong xia;CHEN Xiang;SONG Yi dan;LU Zhong hua;LI Xing long;KOU Jian feng(Institute of Chemical Materials of CAEP,Sichuan Mianyang 621999,China;Safety Ammunition Center of CAEP,Sichuan Mianyang 621999,China)
出处
《含能材料》
EI
CAS
CSCD
北大核心
2019年第11期974-980,共7页
Chinese Journal of Energetic Materials
关键词
钝感弹药
含能材料
危害缓解设计
缓解技术
insensitive munition
energetic materials
mitigation design
mitigation technology
