摘要
从金属-氟聚物机械活化含能材料(MAECs)的最新发展出发,介绍了金属-氟聚物的能量特性,分析了该类材料的能量优势及释能机理;总结了微米级金属-氟聚物的典型缺点为组分间的扩散距离较大导致的能量释放速率低;对比了纳米铝粉的使用、反应材料微器件的设计、机械活化处理等能量释放速率调节方法,分析了机械活化工艺的优越性;综述了金属-氟聚物机械活化含能材料在机械活化工艺、反应机制、爆轰性能及其应用方面的研究状况;评述了金属-氟聚物机械活化含能材料的研究现状和不足,对未来的发展趋势进行了展望。附参考文献64篇。
Embarked from the recent development of metal-fluoropolymer mechanical activation energetic composites(MAECs),the energy properties of metal-fluoropolymer were introduced,the energy advantages and release mechanism were analyzed.The typical defects of metal-fluoropolymer were summarized as the low energy release rate caused by the large diffusion distance between two components.The method of adjusting the energy release rate was compared,such as the use of nano aluminum powder,design of the micro device of reaction materials and the mechanical activation treatment.The superiority of mechanical activation was also analyzed.The research status of the mechanical activation process,reaction mechanism,detonation performance and application of MAECs was reviewed.The present status and problems of the research on MAECs of metal-fluorine polymer were evaluated,and the future development trend was also discussed.With 64 references.
出处
《火炸药学报》
EI
CAS
CSCD
北大核心
2017年第5期8-14,共7页
Chinese Journal of Explosives & Propellants
基金
国家自然科学基金项目(No.11502194)
关键词
机械活化含能材料
MAECs
高能量密度材料
爆轰性能
纳米铝粉
高能炸药
金属-氟聚物
能量释放速率
Key words: mechanical act ivat ion energetic composites
M A E C s
h ig h energy d e n s i tym a te r ia l
d e to n a t io n p e r fo rm -ance
nano aluminum powderl
high energy explosive
metal- fluoropolymer
energy release rate
