Resumen
Self-propagating high temperature synthesis (SHS) under microgravity conditions was studied. The green density of the reacting sample also influenced SHS processes since it affected system reactivity and thermal conductivity of the compact. Either for the case of cylindrical pellets or during combustion front quenching (CFQ) experiments, temperature during reaction evolution was measured using thermocouples embedded in the pellet.
Título traducido de la contribución | Self-propagating high temperature synthesis under microgravity conditions |
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Idioma original | Indefinido/desconocido |
Páginas | 45-52 |
Número de páginas | 8 |
Volumen | 95 |
N.º | 7-8 |
Publicación especializada | Metallurgia Italiana |
Estado | Publicada - jul 2003 |