摘要
通过在粉状乳化炸药中添加不同比例的密度调节剂,配制了爆速范围为1 450~2 550m/s的低爆速炸药;采用该爆速炸药进行了铝/不锈钢复合管爆炸焊接实验,结合最小碰撞速度理论,对实验结果及其界面微观结构和结合强度进行了测试和分析,确定该复合管爆炸焊接的合适爆速约为1 950~2 150 m/s,其结合质量能够满足后续加工要求;同时发现界面由介于直线与波形之间的波状形态组成,且呈现不太规则的扁平波状结合,经分析,炸药爆速、复合管的爆炸焊接环境和爆炸产物飞散条件对界面结合波形及熔化层厚度有很大影响。
To obtain low detonation velocity explosive, commercial attenuant was blended into the emulsion explosive. The detonation velocity of compound explosive changes from 2 550 m/s to 1 450 m/s. Through analyzing the result of mechanical properties test and microstructure test of the Al/ 316L composite tubes which were fabricated by explosive welding of compound explosives, the appro- priate detonation velocity (1 950-2 150 m/s) for the explosive welding of composite tube is obtained, and the combination quality of the composite tubes meet the subsequent processing requirement. The shape of the interface waveform is between line and wave. Interfacial wave also has poor rule of peri- odic variation. The reasons are that detonation velocity is important to the process, the explosion product does not scatter in the direction of tube diameter and the time that detonation products inside the tube affect to the flyer tube is longer than the flyer plate in the explosive welding process.
出处
《爆炸与冲击》
EI
CAS
CSCD
北大核心
2015年第1期82-88,共7页
Explosion and Shock Waves
基金
国家高技术研究发展计划(863计划)项目(2013AA09A220)
关键词
爆炸力学
爆轰速度
爆炸焊接
铝/不锈钢复合管
结合质量
mechanics of explosion
detonation velocity
explosive welding
Al/316L composite tube
combination quality