Synthesis and properties of novel nitro-based thermally stable energetic compounds

Received: 03 Mar 2021, Revised: 19 Mar 2021, Accepted: 10 June 2021, Available online: 18 June 2021, Version of Record: 18 June 2021

Łukasz Gutowski, Stanisław Cudziło
Military University of Technology, Faculty of Advanced Technologies and Chemistry, Gen. Sylwestra Kaliskiego 2 Street, 00-908, Warsaw, Poland

Abstract


This paper reviews the achievements in the field of synthesis of new thermally resistant explosive compounds in the years 2009 through 2019. The performance characteristics of these compounds (sensitivity, thermal decomposition parameters, and detonation parameters) were compared with those of 1,3,5-triamino-2,4,6-trinitrobenzene, which still seems to be an unrivalled model of a thermally resistant and generally low-sensitivity explosive material. New thermally stable explosives (TSEs) were found among macromolecular compounds with tri- and dinitrophenyl groups, nitro and amine-nitro derivatives of azoles, and polynitro derivatives of calixarenes. Some of them match TATB in terms of thermal resistance and additionally have higher detonation parameters.

Keywords
Heat resistant explosives
Detonation parameters
Synthesis
Nitration



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“Authors state no conflict of interest”


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This research received no external funding or grants


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