首页 | 本学科首页   官方微博 | 高级检索  
     

发射药在强约束条件下的燃烧转爆轰特性
引用本文:杨涛,夏智勋,雷碧文. 发射药在强约束条件下的燃烧转爆轰特性[J]. 推进技术, 1995, 16(6): 66-73
作者姓名:杨涛  夏智勋  雷碧文
作者单位:国防科技大学航天技术系
摘    要:以D-45,S-14,3/1三种发射药为研究对象,对钢管约束条件下的高密实火药颗粒床的燃烧转爆轰机理和敏感性进行了实验研究。分别用变片和离子地测量了药床中的压缩波和燃烧波的传播,通过对压缩波阵面和燃烧波阵面的分,发现压缩波形成火焰峰后的已燃区,它将不断加速与加强,最后赶上火焰峰形成强冲击波而诱发爆轰。

关 键 词:发射药 燃烧化学动力学 引爆 爆轰性

DEFLAGRATION TO DETONATION TRANSITION CHARACTERISTICS OF GUN PROPELLANTS UNDER STRONG CONFINEMENT
Yang Tao,Xia Zhixun and Lei Biwen. DEFLAGRATION TO DETONATION TRANSITION CHARACTERISTICS OF GUN PROPELLANTS UNDER STRONG CONFINEMENT[J]. Journal of Propulsion Technology, 1995, 16(6): 66-73
Authors:Yang Tao  Xia Zhixun  Lei Biwen
Affiliation:Dept.of Aerospace Technology,National Univ.of Defense Technology,Changsha,410073;Dept.of Aerospace Technology,National Univ.of Defense Technology,Changsha,410073;Dept.of Aerospace Technology,National Univ.of Defense Technology,Changsha,410073
Abstract:The mechanism and sensitivity of deflagration to detonation transition(DDT) in highly packed granular propellant beds confined in steel tube have been experimentally studied for D-45,S-14,and 3/1 propellants.The compressive wave andflame front in the DDT processes were monitored by strain gages and ionization probes,respectively.By separating the compressive wave front and the combustion wave front,it was found that the compressive wove formed in the burning region behind the flamefront,with the increase of its strength and velocity,would overtake the flame front andforms a strong shock wave to initiate the detonation.The analysis for the experimentaldata showed that a rapid pressure increase near the ignitor was a necessary condition forthe formation of the compressive wave,which could explain the difference in DDT characteristics of the three propellants mentioned above.The influence on DDT characteristics of the experimental parameters(propellant properties,loading density,confinement) has also been investigated.
Keywords:Gun propellant combustion  Combustion chemical kinetics  Shockwave initiation   Flame propagation
本文献已被 CNKI 维普 等数据库收录!
点击此处可从《推进技术》浏览原始摘要信息
点击此处可从《推进技术》下载免费的PDF全文
设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号