Burning Rate Characterization of GAP/HMX Energetic Composite Materials

摘要: The burning rate of the energetic materials composed glycidyl azide polymer (GAP) and HMX particles was characterized in order to elucidate heat release process during burning. Since GAP is an burns by itself, addition increases flame temperature alters characteristics. Experimental observations indicate that gas phase structure consists a two-staged reaction: controlled first-stage reaction zone final formed at second-stage zone. flux transferred back from surface as pressure released remains unchanged when increased.