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4698696 
Journal Article 
Effects of binders and graphite on the sensitivity of epsilon-HNIW 
Yu, Lan; Jiang, X; Guo, X; Ren, Hui; Jiao, Q 
2013 
Journal of Thermal Analysis and Calorimetry
ISSN: 1388-6150
EISSN: 1588-2926 
112 
1343-1349 
WOS:000319358500024 
In order to optimize formulations of PBX based on Hexanitrohexaazaisowurtzitane (HNIW) and meet the application in mixed explosive, the mold powder of HNIW coated by varied binders was obtained by aqueous suspension technology. Several particle sizes of graphite were added as additive with a 0.5 % mass ratio. The experiment results showed that fluorine resin (FPM) was better than polyurethane and cis-butadiene rubber when the mass percentage of binders was fixed at 4 %. The characteristic height of HNIW/FPM (96/4) mold powder was at 28 cm (2.5 kg hammer), while that of the neat HNIW was at 15 cm merely, and the friction explosion probability fell from 100 to 70 %. The addition of flake graphite with proper grain size would reduce the mechanical sensitivity of HNIW and improved the fluxion property of HNIW-based mold powders. The thermal stability characteristic of HNIW FPM (96/4) and HNIW/FPM/G (96/4/0.5) were studied by thermogravimetric analysis (TG) at 10 A degrees C min(-1), the peak decomposition temperatures were at 251 and 250 A degrees C, which were closed to that of neat HNIW(249 A degrees C) and also identified superior thermal stability of compound. 
Hexanitrohexaazaisowurtzitane; Fluorine resin; PBX; Mechanical sensitivity; Thermal stability