Design and Synthesis of Energetic Melt‐Castable Materials by Substituent‐Specific Modification

Abstract

AbstractWith the increase in the demand for high‐performance composite explosives, the search for advanced energetic melt‐castable compounds has attracted increasing attention in the field of energetic materials. Herein, two new energetic materials with nitromethyl and azidomethyl substituents (1‐(nitromethyl)‐3,4‐dinitro‐1H‐pyrazole (NMDNP) and 1‐(azidomethyl)‐3,4‐dinitro‐1H‐pyrazole (AMDNP) were prepared by the substituent modification of a potential melt‐castable molecule ((3,4‐dinitro‐1H‐pyrazol‐1‐yl) methyl nitrate, MC‐4), respectively. NMDNP exhibited a suitable melting point (90 °C), good thermal stability (Td: 185 °C) and excellent detonation performance (8484 m s−1) and impact sensitivity (25 J), thereby demonstrating promise as an energetic melt‐castable material. Simultaneously, compared with the nitrato‐methyl and azidomethyl substituents, the nitromethyl substituent exhibited greater advantages in regulating performance.