A Combined Study of TEM-EDS/XPS and Molecular Modeling on the Aging of THPP, ZPP, and BKNO3 Explosive Charges in PMDs under Accelerated Aging Conditions

Abstract: The aging mechanism of explosive charges in pyrotechnic mechanical devices (PMDs) is pre-oxidations of their fuels (TiH2 for THPP, Zr for ZPP, and B for BKNO3) by external oxygen. The effect of water on the aging of explosive charges was thus investigated by TEM-EDS/XPS and DFT-based molecular modeling under accelerated aging with 71 °C and 100% relative humidity. The formation of oxide shell and its thickness on the surface of fuels by the aging were observed by TEM-EDS. It failed to detect any oxide on the s… Show more

“…DSC (differential scanning calorimetry)-based thermal analysis confirmed the reaction (or explosive) energy decrease with the duration of exposure to a highly humid atmosphere, and TEM (transmission electron microscopy)-EDS (energy dispersive spectroscopy) specified the gradual growth of an oxide layer on the surface of B and Zr-metallic fuels of BKNO 3 and ZPP, respectively. Then, the relative robustness of BKNO 3 , ZPP, and THPP to aging was reported based on our experimental works and a complementary computational kinetic study [19].…”

Thermodynamic Analysis on the Aging of THPP, ZPP and BKNO3 Explosive Charges in PMDs

“…DSC (differential scanning calorimetry)-based thermal analysis confirmed the reaction (or explosive) energy decrease with the duration of exposure to a highly humid atmosphere, and TEM (transmission electron microscopy)-EDS (energy dispersive spectroscopy) specified the gradual growth of an oxide layer on the surface of B and Zr-metallic fuels of BKNO 3 and ZPP, respectively. Then, the relative robustness of BKNO 3 , ZPP, and THPP to aging was reported based on our experimental works and a complementary computational kinetic study [19].…”

Thermodynamic Analysis on the Aging of THPP, ZPP and BKNO3 Explosive Charges in PMDs

Interpol review of detection and characterization of explosives and explosives residues 2016-2019