Nanoenergetic Materials Preparation, Properties, and Applications

English[eng]

Subjects--Topical Terms:
solid propellants||condensed products||catalytic combustion||compositions||rocket motor||thermolysis||energetic materials||GO-based catalysts||quantitative analyses||decomposition mechanisms||electrospinning||NC/GAP/nano-LLM-105||energetic performance||sensitivity||nitrocellulose||supercritical antisolvent process||nanoparticles||combustion||nano AP||nano AN||liquid nitrogen||freeze drying||nanoenergetic material||compatibility||nonisothermal reaction kinetics||thermal safety||catalytic action||nano-Al/MoO3 MIC||stable suspension||electrophoretic deposition||kinetics||micro initiator||carbon mesosphere||Fe2O3||supported nanoparticles||thermal decomposition||composite energetic materials||nano-sized particles||Al-based||morphology performance||hazardous properties||ignition||metal||combustion mode||heat transfer||free-molecular||burning time||nanothermite||pyroMEMS||nanoenergetics||reactive thin film||Al||CuO||aging||initiation||HTPB||aluminum nanopowders||burning rate||coated aluminum||n/a||reactive materials||nanocomposite||metal combustion||thermal analysis