Abstract

This study aims to systematically investigate the thermal decomposition regulation of ammonium perchlorate (AP), the core oxidizer of solid propellants. We innovatively developed a hierarchical structure V₂O₃ nanoflower synthesis strategy based on the solvothermal method and proposed a regulation mechanism and method for V₂O₃ nanoflower through systematic research on the regulation of water/ethylene glycol solvent ratio on crystal phase and microstructure. The experiment showed that the prepared V₂O₃ nanoflower exhibited excellent catalytic performance in the AP composite system: when the addition amount was 5 wt%, the high-temperature decomposition peak temperature of AP was significantly reduced by 50°C. This achievement provides an innovative solution for improving the combustion performance of new solid propellants by constructing a “nanostructure engineering-solvent ratio optimization” collaborative regulation system, which has important reference value in the fields of micro-nano catalyst design and combustion regulation.