Effects of the Al content on thermal decomposition and combustion properties of HMX/Al composites

“…Heat-resistant energetic materials have always been an important research field in national defense science and technology, and play a key role in the development of national defense modernization [1][2]. However, the decomposition temperature of heat-resistant explosives currently used is mostly at 300 ~350 °C [3][4], and their detonation performance is far weaker than that of common high-energy explosives, such as HMX and RDX [5][6]. Therefore, researchers have paid attention to the development of PBX formulations that can achieve considerable detonation performance and heat resistance [7][8].…”

New TKX‐55‐based heat resistant microspheres

“…Heat-resistant energetic materials have always been an important research field in national defense science and technology, and play a key role in the development of national defense modernization [1][2]. However, the decomposition temperature of heat-resistant explosives currently used is mostly at 300 ~350 °C [3][4], and their detonation performance is far weaker than that of common high-energy explosives, such as HMX and RDX [5][6]. Therefore, researchers have paid attention to the development of PBX formulations that can achieve considerable detonation performance and heat resistance [7][8].…”

New TKX‐55‐based heat resistant microspheres

Control of burning rate pressure sensitivity for solid propellants by changing the interfacial contact of Al/HMX/AP with precisely located graphene-based energetic catalysts

Preparing HNS/n-Al heat-resistant microspheres with enhanced combustion performance using droplet microfluidic technology