期刊
JOURNAL OF ENERGETIC MATERIALS
卷 40, 期 1, 页码 61-81出版社
TAYLOR & FRANCIS INC
DOI: 10.1080/07370652.2020.1830199
关键词
Nano-aluminum particles; pentadecafluorooctanoic acid; core-shell structure; energy release efficiency; combustion performance
类别
资金
- National Natural Science Foundation of China [21571042, 21873025, 51603055, 6141B0626020201, 6141B0626020101]
In this study, a novel nAl@F-x nanocomposite with a core-shell structure was prepared via a self-assembly approach. The thickness of the F-x layer could be easily adjusted by varying the amount of PFOA used. The nanocomposite exhibited enhanced combustion and thermal reaction performances due to the synergistic effect between F-x and nAl, as well as the formation of a mesoporous structure during the combustion process.
In this work, a novel Al2O3-free core-shell structured nAl@aluminum-perfluorooctanoate (F-x) nanocomposite has been prepared via a self-assembly approach. The Al(2)O(3)shell was first removed by hydrofluoric acid (HF) solution, and then the perfluorooctanoic acid (PFOA) was coated on the surface of nAl by a self-assemble reaction. The thickness of the obtained F-x layer can be easily tuned by using different amount of PFOA based on the chemical interaction between nAl and PFOA molecules. The obtained nAl@F-x nanocomposite showed an enhanced exothermic and combustion performance due to the synergetic effect between F-x and nAl and the mesoporous structure in situ formed during the combustion process. This work demonstrated that nAl@F-x nanocomposite prepared by PFOA coating on nAl could effectively solve the detrimental effect of in situ formed Al2O3, thus enhancing the combustion and thermal reaction performances, which showed great potential to be applied in solid rocket propellant.
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