Characterization of Cyclohexanone Inclusions in Class 1 RDX

Abstract

Neat Class 1 RDX and Class 1 RDX from prills and pressed Comp A-3 (type II) have been characterized with respect to solvent inclusions in support of a U.S. Army Research Laboratory (ARL) program to model Multiscale Response of Energetic Materials (MREM). It was observed that even dry RDX retains surface-adsorbed solvent and the level of this adsorbed solvent can be reduced, but not eliminated, by heating at 50 C under vacuum. Such treatment does not remove included solvent unless the temperature is high enough to cause the included solvent to expand sufficiently to result in micro-cracks. Desorption gas chromatography (GC)-mass spectrometry (MS) was used to quickly estimate both the average volume and weight percent of RDX solvent inclusions. Included solvent in Class 1 RDX accounts for less than 0.04% of total mass, whereas adsorbed solvent accounts for about half that. The average inclusion size for Class 1 RDX was estimated to be ~1 m. Pressing Comp A-3 prills into charges results in particle size reduction and loss of solvent inclusions. It is proposed that solvent liberated from inclusions can aid in binder-filler interaction in the pressed sample by solvating material at interfaces and, perhaps, by smoothing sharp edges resulting from cracked particles.

Document Details

Document Type

Technical Report

Publication Date

Jun 01, 2014

Accession Number

ADA602780

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