Composite reactive material powders combining boron with 40 mass % of magnesium are prepared by mechanical milling of elemental boron and magnesium powders. Commercial boron is washed with acetonitrile to remove surface boron oxide, which can react with magnesium during milling. Thermogravimetric measurements showed two oxidation steps. X-ray diffraction analysis of partially oxidized samples showed that selective oxidation of magnesium occurred during the first step. It was followed by oxidation of boron during the second step. Prepared composite powders were ignited using an electrically heated filament, by electric spark, and in constant-volume explosion tests. Ignition is caused by selective oxidation of magnesium. Ignition temperature of the composite powders obtained in heated filament tests was lower than that measured for the pure magnesium. A faster initiation by electric spark was observed for powders prepared using washed boron. This was attributed to an increased effect of heterogeneous oxidation for high heating rates and thus to an accelerated heterogeneous oxidation for powders achieved after removal of the natural boron oxide and hydroxide surface layers. Following the ignition, boron continued to react, contributing to the released combustion heat and pressure generated by the flame in both constant-volume explosion and spark ignition tests.
Reactive Composite Boron–Magnesium Powders Prepared by Mechanical Milling
Journal of Propulsion and Power ; 34 , 3 ; 787-794
2018-05-01
Article (Journal)
Electronic Resource
English
Aluminum-Rich Al-MoO3 Nanocomposite Powders Prepared by Arrested Reactive Milling
Online Contents | 2008
|Study on boron/magnesium compound materials by wet ball milling
Automotive engineering | 2014
|