Keyphrases
Ignition
100%
Fully Dense
100%
CuO Nanocomposite
100%
Nanocomposite Powder
100%
Al-CuO
100%
Multi-step Reaction Model
100%
Reaction Model
50%
Laser Beams
33%
Explode
33%
Heating Rate
33%
Gas Release
33%
Thermal Contact
33%
High Temperature
16%
Metal Filament
16%
Film Thickness
16%
Nanocomposite Materials
16%
Oxidation Mechanism
16%
Arrested Reactive Milling
16%
Exothermic Reaction
16%
Copper(II) Oxide
16%
Metal Powder
16%
Temperature Rise
16%
Differential Scanning Calorimetry
16%
Aluminum Oxidation
16%
Aluminum Oxide
16%
Laser Ignition
16%
Polymorph
16%
Heterogeneous Reaction
16%
Laser Power
16%
Ignition Model
16%
Powder Layer
16%
Thermal Runaway
16%
Ignition Threshold
16%
Temperature Runaway
16%
Low Temperature Process
16%
Oxygen Gas
16%
Oxidation Model
16%
Heterogeneous Process
16%
Engineering
Ignition
100%
Nanocomposite
100%
Reaction Model
100%
Laser Beam
22%
Gas Release
22%
Low-Temperature
11%
Individual Particle
11%
Prepared Material
11%
Temperature Increase
11%
Heating Rate
11%
Aluminum Oxide
11%
Laser Power
11%
Exothermic Reaction
11%
Heterogeneous Reaction
11%
Powder Layer
11%
Rate of Heating
11%
Oxygen Gas
11%
Chemical Engineering
Heating Rate
100%
Differential Scanning Calorimetry
50%