Abstract
Aluminium is widely used as an important additive to improve ballistic and energy performance in solid propellants, but the unburned aluminium does not contribute to the specific impulse and has both thermal and momentum two-phase flow losses. So understanding of aluminium combustion behaviour during solid propellant burning is significant when improving internal ballistic performance. Recent developments and experimental results reported on such combustion behaviour are presented in this paper. A variety of experimental techniques ranging from quenching and dynamic measurement, to high-speed CCD video recording, were used to study aluminium combustion behaviour and the size distribution of the initial agglomerates. This experimental investigation also provides the size distribution of the condensed phase products. Results suggest that the addition of an organic fluoride compound to solid propellant will generate smaller diameter condensed phase products due to sublimation of AlF3. Lastly, a physico-chemical picture of the agglomeration process was also developed based on the results of high-speed CCD video analysis.
Original language | English |
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Pages (from-to) | 136-144 |
Number of pages | 9 |
Journal | Acta Astronautica |
Volume | 133 |
DOIs | |
Publication status | Published - 1 Apr 2017 |
Keywords
- Agglomeration
- Aluminised propellants
- Combustion
- Initial agglomerates
- Organic fluoride compound