Electrophoretic deposition of binary energetic composites

Combustion and Flame

Volumn 159, Issue 6, 2012, Pages 2210-2218

  Sullivan, Kyle Thomas ^a   Worsley, Marcus Andre ^a   Kuntz, Joshua David ^a   Gash, Alex Eydmann ^a  

^a LAWRENCE LIVERMORE NATIONAL LABORATORY   (United States)

Author keywords

Aluminum; Binary composites; Copper oxide; Electrophoretic deposition; Energetic materials; Thermites

Indexed keywords

BINARY COMPOSITES; CONDUCTIVE SUBSTRATES; CRITICAL MASS; DISPERSION STABILITY; DROP-CASTING; ELECTRON MICROSCOPY ANALYSIS; ELECTROPHORETIC DEPOSITIONS; EQUIVALENCE RATIOS; FINE FEATURE; FLAME PROPAGATION VELOCITY; FLAME VELOCITY; INTRINSIC REACTIVITY; MICRON SCALE; MICROSCOPIC FEATURES; NANO SCALE; PARTICLE CONCENTRATIONS; PARTICULAR CONDITION; PATTERNED ELECTRODE; PEAK VALUES; PREMIXED; PROPAGATION VELOCITIES; SAMPLE THICKNESS; SELF-PROPAGATING COMBUSTION; THEORETICAL MAXIMUM DENSITIES; THERMITES; THICKNESS DEPENDENCE;

ALUMINUM; ALUMINUM COATINGS; COPPER OXIDES; DEPOSITS; DISPERSIONS; ELECTRON MICROSCOPES; ELECTRON MICROSCOPY; ELECTROPHORESIS; EXPLOSIVES; IGNITION; SURFACE ACTIVE AGENTS; THIN FILMS; VAPOR DEPOSITION;

FILM PREPARATION;

ALUMINUM; COPPER OXIDE; SURFACTANT; WATER;

ARTICLE; COMBUSTION; COMPOSITE MATERIAL; CONCENTRATION (PARAMETERS); DENSITY; ELECTRODE; ELECTRON MICROSCOPY; ELECTROPHORESIS; ELECTROPHORETIC DEPOSITION; MICROSCOPY; PRIORITY JOURNAL; VELOCITY;

EID: 84859880871     PISSN: 00102180     EISSN: 15562921     Source Type: Journal    
DOI: 10.1016/j.combustflame.2012.01.021     Document Type: Article

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