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Humidity induced burning rate degradation of an iron oxide catalyzed ammonium perchlorate/HTPB composite propellant
Burn rate degradation of ammonium perchlorate based solid propellants can occur when moisture diffuses in and out of the material while exposed to fluctuating ambient humidity conditions. For high burn rate propellants with significant mass fractions of ammonium perchlorate particles less than 10μm,...
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| Published in: | Combustion and flame 2014-01, Vol.161 (1), p.363-369 |
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| Format: | Article |
| Language: | English |
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| cites | cdi_FETCH-LOGICAL-c387t-3a7ca58f4d234952044e39c7f7edbdf27c3c674bac47fe97392e7ffa295f7e333 |
| container_end_page | 369 |
| container_issue | 1 |
| container_start_page | 363 |
| container_title | Combustion and flame |
| container_volume | 161 |
| creator | McDonald, Brian A. Rice, Jeremy R. Kirkham, Mark W. |
| description | Burn rate degradation of ammonium perchlorate based solid propellants can occur when moisture diffuses in and out of the material while exposed to fluctuating ambient humidity conditions. For high burn rate propellants with significant mass fractions of ammonium perchlorate particles less than 10μm, small changes in particle diameter can significantly alter the total oxidizer surface area resulting in propellant burning rate reductions. Ammonium perchlorate propellant samples are aged at various relative humidity and constant temperature. The samples are subsequently dried to equal moisture content and examined by SEM and optical microscopy. The propellant samples are combusted in a closed combustion bomb to measure the burning rate of the aged samples. The results show a clear correlation of the burning rate degradation and the level of humidity exposure. Evidence indicates that the degradation is a result of ammonium perchlorate crystal size growth and surface morphology changes reducing the available surface area. The changes are shown to be correlated with the moisture content of the aging environment. |
| doi_str_mv | 10.1016/j.combustflame.2013.08.014 |
| format | article |
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For high burn rate propellants with significant mass fractions of ammonium perchlorate particles less than 10μm, small changes in particle diameter can significantly alter the total oxidizer surface area resulting in propellant burning rate reductions. Ammonium perchlorate propellant samples are aged at various relative humidity and constant temperature. The samples are subsequently dried to equal moisture content and examined by SEM and optical microscopy. The propellant samples are combusted in a closed combustion bomb to measure the burning rate of the aged samples. The results show a clear correlation of the burning rate degradation and the level of humidity exposure. Evidence indicates that the degradation is a result of ammonium perchlorate crystal size growth and surface morphology changes reducing the available surface area. 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For high burn rate propellants with significant mass fractions of ammonium perchlorate particles less than 10μm, small changes in particle diameter can significantly alter the total oxidizer surface area resulting in propellant burning rate reductions. Ammonium perchlorate propellant samples are aged at various relative humidity and constant temperature. The samples are subsequently dried to equal moisture content and examined by SEM and optical microscopy. The propellant samples are combusted in a closed combustion bomb to measure the burning rate of the aged samples. The results show a clear correlation of the burning rate degradation and the level of humidity exposure. Evidence indicates that the degradation is a result of ammonium perchlorate crystal size growth and surface morphology changes reducing the available surface area. 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For high burn rate propellants with significant mass fractions of ammonium perchlorate particles less than 10μm, small changes in particle diameter can significantly alter the total oxidizer surface area resulting in propellant burning rate reductions. Ammonium perchlorate propellant samples are aged at various relative humidity and constant temperature. The samples are subsequently dried to equal moisture content and examined by SEM and optical microscopy. The propellant samples are combusted in a closed combustion bomb to measure the burning rate of the aged samples. The results show a clear correlation of the burning rate degradation and the level of humidity exposure. Evidence indicates that the degradation is a result of ammonium perchlorate crystal size growth and surface morphology changes reducing the available surface area. 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| fulltext | fulltext |
| identifier | ISSN: 0010-2180 |
| ispartof | Combustion and flame, 2014-01, Vol.161 (1), p.363-369 |
| issn | 0010-2180 1556-2921 |
| language | eng |
| recordid | cdi_proquest_miscellaneous_1530994133 |
| source | ScienceDirect Journals |
| subjects | Ammonium perchlorate Ammonium perchlorates Applied sciences Burning rate Chemical industry and chemicals Correlation Crystallization Degradation Exact sciences and technology Humidity Industrial chemicals Moisture content Particulate composites Powders, propellants, explosives Propellant Propellants |
| title | Humidity induced burning rate degradation of an iron oxide catalyzed ammonium perchlorate/HTPB composite propellant |
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