Doping hematite with bismuth to enhance its catalytic and oxidizing properties

Bismuth-cation modulated hematite (Bi-Fe2O3) was prepared by a one-step hydrothermal method and used as a catalyst for the thermolysis of energetic materials (EMs) and oxidant in an Al-based thermite. The effects of the amount of Bi doped Fe2O3 on the catalytic property and thermite behavior were investigated using differential scanning calorimetry (DSC). Thermogravimetry-infrared spectroscopy-mass spectrometry (TG/IR/MS) was used to study the thermal decomposition gases of cyclotetramethylenetetranitramine (HMX) with or without catalyst. Bi-Fe2O3 was found to reduce the initial thermal decomposition temperature and activation energy of HMX, and change the decomposition mechanism. In addition, the thermite reaction of Al/Bi-Fe2O3 is exothermic and faster than that of undoped Al/Fe2O3, resulting in more rapid energy release. Al/Bi-Fe2O3 also shows a shorter ignition delay time than Al/Fe2O3. This study demonstrates Al/Bi-Fe2O3 as an efficient advanced combustion catalyst for solid propellants.

Automated summary

The study synthesized bismuth-modulated hematite as a catalyst for energetic materials thermolysis and found that it can reduce the initial thermal decomposition temperature and activation energy of HMX, leading to faster energy release during thermite reaction.