Aluminium/tin (IV) oxide thermite composite: sensitivities and reaction propagation |
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| Authors: | Pierre Gibot Virginie Goetz |
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| Affiliation: | 1. Laboratoire des Nanomatériaux pour des Systèmes Sous Sollicitations Extrêmes (NS3E), ISL-CNRS-UNISTRA UMR 3208, Institut franco-allemand de recherches de Saint-Louis (ISL) , Saint-Louis, France pierre.gibot@isl.eu!["ORCID]("//:0" "\"ORCID") https://orcid.org/0000-0002-8611-3879;3. Laboratoire des Nanomatériaux pour des Systèmes Sous Sollicitations Extrêmes (NS3E), ISL-CNRS-UNISTRA UMR 3208, Institut franco-allemand de recherches de Saint-Louis (ISL) , Saint-Louis, France |
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| Abstract: | ![]()
ABSTRACT Thermites are energetic composites made of metal and oxidizer particles that react according to an exothermic reaction and release large amounts of energy. Many possible metal and oxidizer couples exist in the literature. Here, the performance of the aluminum reducing metal and tin (IV) oxide (SnO2) combination was reported as a function of the fuel/oxidizer mass ratio. The Al/SnO2 energetic composite, in stoichiometric conditions, was insensitive to impact, sensitive to friction and extremely sensitive to electrostatic discharge. The combustion velocity was determined to be close to 600 m/s. Changing the stoichiometry affected both the sensitivity thresholds to the friction test (160 N to > 360 N) and flame propagation velocity (480–588 m/s) of the Al/SnO2 composite. These results are reported for the first time. |
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| Keywords: | Nanothermites SnO2 sensitivities combustion velocity |
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!["ORCID]({"type":"image","src":"/templates/jsp/images/orcid.png"} "\"ORCID")
https://orcid.org/0000-0002-8611-3879;3. Laboratoire des Nanomatériaux pour des Systèmes Sous Sollicitations Extrêmes (NS3E), ISL-CNRS-UNISTRA UMR 3208, Institut franco-allemand de recherches de Saint-Louis (ISL) , Saint-Louis, France