Thermal Decomposition of Energetic Materials 83. Comparison of the Pyrolysis of Energetic Materials in Air versus Argon

摘要

T-Jump/FTIR spectroscopy was employed to flash pyrolyze a series of energetic compounds in an air atmosphere for comparison with an argon atmosphetre. The O-NO_2 compounds (NG, NC, and PETN), N-NO_2 compounds (RDX and HMX), and C-NO_2 copounds (DNT, TNT, and NTO) were studied. The effect of the surrounding atmosphere on the pyrolysis gases roughly correlates with the trend in the vapor pressure of the parent energetic material (i. e. DNT>NG>TNT>NTO>PETN approx = RDX > NC approx = HMX). For high vapor pressure compounds, the gaseous phase reactions dominate and the dependence on the surrounding atmosphere is strong. For low vapor pressure compounds, the condensed phase decomposition dominates and the dependence on the surrounding atmosphere is weak. That is, the extent of condensed phase vs. gas phase decomposition is the major factor in the effect of the surrounding atmosphere on the decoposition gases. The main reactions in the air are CO with O_2, which is slow. However, these pyrolysis products for the nitrate esters, the nitramines, and the C-NO_2 compounds behave differently suggesting that a common process, such as surface catalysis, is not responsible for the behavior seen. THere is little effect of the relative humidity (0-60% range) except in the case of HMX.