Thermally Stable and Low‐Sensitive Aluminized Explosives with Improved Detonation Performance

Abstract

AbstractTwo new types of aluminized explosives TATB/HMX/Al and LLM‐105/Al were formulated and compared with the formerly reported TATB/Al explosives in terms of thermal stability, mechanical sensitivity, and detonation performance. Firstly, the heat of the explosion was measured and two formulations were selected as the investigated samples. Next the thermal stability was studied by simultaneous thermogravimetric analysis/differential scanning calorimetry (TGA/DSC) and thermal cook‐off tests. Then the impact and friction sensitivity were measured, and finally the detonation performance was characterized by cylinder tests and particle velocity measurements of the detonation reaction zone. From the calorimetric data, the new types of explosives increase the heat of the explosion significantly. In terms of thermal stability, LLM‐105/Al=65/30 is more stable than TATB/HMX/Al=50/15/30, but both of them are inferior to TATB/Al=70/25. The impact sensitivity of the two new explosives is higher than that of TATB/Al=70/25, and all of the samples are insensitive to friction. For detonation performance, both of the two new samples are superior to TATB/Al=70/25, and LLM‐105/Al=65/30 exhibits the best performance that it has the highest Gurney energy, detonation velocity, and detonation pressure. Conclusions about how to use those aluminized explosives to generate optimal effects are drawn.