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固体推进剂含能燃烧催化剂研究现状与发展趋势
Research Status and Development Trend of Energetic Combustion Catalysts for Solid Propellant

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李瑞勤 1,2   姜一帆 1   张明 1   王艳 3   李辉 1   秦钊 1   左英英 2   侯晓婷 2   赵凤起 1 *  
文摘 以含能基团为区分,综述了固体推进剂含能燃烧催化剂近年来的研究现状,总结了唑类、吖嗪类、二茂铁类、蒽醌类、石墨烯类及硝基类含能燃烧催化剂对固体推进剂及其主要组分的催化燃烧作用及催化机制。指出唑类和吖嗪类部分化合物对固体推进剂催化效果优异;二茂铁及衍生物含能化兼具提升能量和改善迁移;蒽醌类等新型含能催化剂也各有优势;含氮量越高,对催化剂体系能力贡献越大,可通过在氮杂环上引入硝基等含能基团以提高氮含量并改善催化剂的性能。指出今后含能燃烧催化剂的研究重点为:进一步开展多功能、多金属含能燃烧催化剂的设计及机理探索;同时加强含能燃烧催化剂对其他含能材料热分解的催化作用及在固体推进剂中的应用研究。附参数文献89篇。
其他语种文摘 Recent research progress of energetic combustion catalysts distinguished by energetic groups for solid propellant was reviewed.The catalystic combustion and mechanism of energetic combustion catalysts such as azoles,azines,ferrocene,dinitroanthraquinone,grapheme and nitro on the combustion of solid propellants and their main components were summarized.Several compounds of azole and azine had excellent catalytic effect on solid propellant,ferrocene and its derivatives can increase energy and improve migration,new types of energetic catalysts like dinitroanthraquinone also have their own advantages.The higher the nitrogen content,the greater contribution to the capacity of the catalyst system,and the nitrogen content can be increased and the performance of the catalyst can be improved by introducing energetic groups such as nitro on the nitrogen heterocycle.Finally,designing of multi-functional and multimetal energetic combustion catalysts,exploring catalytic mechanism and strengthening the catalytic effect on the thermal decomposition of other energetic materials and the researches on the application of energetic combustion catalysts in solid propellant were pointed out as the emphasis directions in the future.With 89 references.
来源 火炸药学报 ,2023,46(1):1-15 【核心库】
DOI 10.14077/j.issn.1007-7812.202204001
关键词 固体推进剂 ; 含能燃烧催化剂 ; 含能化合物 ; 高氯酸铵 ; AP ; 黑索今 ; RDX
地址

1. 西安近代化学研究所, 国家燃烧与爆炸技术重点实验室, 陕西, 西安, 710065  

2. 山西北方兴安化学工业有限公司, 山西, 太原, 030008  

3. 驻太原地区第三军事代表室, 山西, 太原, 030012

语种 中文
文献类型 综述型
ISSN 1007-7812
学科 武器工业;航天(宇宙航行)
基金 国家自然科学基金
文献收藏号 CSCD:7404878

参考文献 共 88 共5页

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