Keyphrases
Ignition
50%
Combustion
31%
Arrested Reactive Milling
27%
Boron
25%
Aluminum Powder
22%
Composite Powder
21%
Thermite
21%
Nanocomposite Powder
20%
Mechanical Milling
17%
Low Temperature
17%
Particle Size
16%
Mechanical Alloying
16%
Molybdenum Trioxide
16%
Burning Time
15%
Electrostatic Discharge
15%
Reactive Composites
15%
Iodine
14%
Reactive Materials
13%
Aluminum Oxide
13%
Particle Size Distribution
13%
Combustion Products
13%
Oxidizer
13%
Aerosolized
13%
Boron Combustion
12%
Ignition Temperature
12%
Al-CuO
12%
Fully Dense
12%
Room Temperature
11%
Aluminum Oxidation
10%
Heating Rate
10%
Copper(II) Oxide
10%
Acetonitrile
10%
Milling Time
9%
Boron Powder
9%
Reactive Nanocomposites
9%
Aluminum-rich
9%
Energetic Formulation
9%
Constant Volume
9%
Thermal Analysis
9%
Activation Energy
9%
Electrically Heated
8%
CuO Nanocomposite
8%
High Temperature
8%
Nanocomposite Materials
8%
Ignition Delay Time
8%
Exothermic Reaction
8%
Pure Al
8%
Oxidation Kinetics
7%
Magnesium
7%
Differential Scanning Calorimetry
7%
Material Science
Powder
100%
Aluminum
48%
Nanocomposites
42%
Oxidation Reaction
30%
Boron
24%
Oxide Compound
11%
Magnesium
9%
Mechanical Alloying
8%
Particle Size Analysis
8%
Electron Microscopy
6%
Thermal Analysis
6%
Scanning Electron Microscopy
6%
Al2O3
6%
Differential Scanning Calorimetry
6%
X-Ray Diffraction
6%
Composite Material
6%
Carbon Dioxide
5%
Process Control
5%
Composite Particle
5%
Titanium
5%
Engineering
Ignition
43%
Nanocomposite
37%
Low-Temperature
16%
Aluminum Powder
15%
Composite Powder
14%
Burn Time
14%
Energetics
13%
Heating Rate
12%
Oxidizer
10%
Ray Diffraction
10%
Mechanical Alloying
10%
Reactive Material
10%
Ignition Temperature
9%
Electrostatic Discharge
8%
Combustion Product
8%
Activation Energy
8%
Mechanical Milling
7%
Aluminum Oxide
7%
Prepared Material
6%
Mols
6%
Constant Volume
6%
Ignition Delay
6%
Combustion Temperature
5%
Mg Powder
5%
Exothermic Reaction
5%