Keyphrases
Surface Modification
100%
Ignition
100%
Boron
100%
Boron Combustion
100%
Iron-based Coating
100%
Burning Time
42%
Boron Particle
42%
CO2 Laser
28%
Boron Powder
28%
Acetonitrile
28%
High Purity
28%
Pure Boron
28%
Particle Size
14%
High Temperature
14%
Optical Emission
14%
Reaction Mechanism
14%
Coated Powder
14%
Thermal Decomposition
14%
Combustion Temperature
14%
Oxide Layer
14%
Surface Treatment
14%
Combustion Characteristics
14%
Oxide Layer Thickness
14%
Burn Rate
14%
Staged Combustion
14%
Burning Particles
14%
Nitrides
14%
Firing Temperature
14%
Two-phase Combustion
14%
Emission Pattern
14%
Iron Pentacarbonyl
14%
Combustion Pattern
14%
Iron Dopant
14%
Laser Beam Energy
14%
Natural Oxide
14%
Engineering
Ignition
100%
Burn Time
100%
Combustion Stage
66%
Size of Particle
33%
Oscillatory
33%
Nitride
33%
Dopants
33%
Layer Thickness
33%
Starting Material
33%
Combustion Temperature
33%
Oxide Layer
33%
Temperature Time
33%
Laser Beam Energy
33%
Natural Oxide Layer
33%
Material Science
Surface Treatment
100%
Boron
100%
Powder
35%
Oxide Compound
14%
Carbon Dioxide
14%
Doping (Additives)
7%
Nitride Compound
7%
Chemical Engineering
Acetonitrile
100%
Nitride
50%