关键词: 水冲压发动机+;金属燃料;热分解;活化能;反应速率

Abstract: The thermal decomposition characteristics of the magnesium-based hydroreactive metal fuel were investigated by means of various thermal analysis methods, such as TG-DTA, DSC and PTG. The results showed that the thermal decomposition of AP and HTPB in the fuel occurs sequentially as temperature increases, and there is no oxidation of Mg in Ar atmosphere. Adding catalyst, decreasing particle sizes of AP, increasing the ratio of oxidant to binder or decreasing the average particle sizes of Mg could decrease the decomposition temperature T and activation energy Ea and increase decomposition rate constant k of AP. Decreasing particle sizes of AP or increasing the ratio of oxidant to binder could decrease the decomposition T, Ea and increase decomposition k of HTPB. With pressure increasing, both the mass loss rate of AP and HTPB and mass loss of AP increase while the weight of condensed products decrease. The decomposition of AP was influenced more greatly than decomposition of HTPB by pressure.

Key words: Water ramjet+;Metal fuel;Thermal decomposition;Activation energy;Reaction rate