Keyphrases
Wear-resistant
100%
Thermal Spray Coatings
100%
Processing Properties
100%
Coating Process
100%
Carbides
100%
Wear Mechanism
100%
Mechanical Degradation
100%
Mechanical Wear
100%
Damage Mechanism
75%
Wear Performance
75%
In-flight Particle
75%
Mechanical Properties
50%
Particle Size
50%
Microstructure
50%
Thermally-sprayed
50%
Microstructure Properties
50%
High Velocity
50%
Process Performance
50%
Carbide Particles
50%
Microstructure Performance
50%
Thermal Spray Process
50%
Toughness
25%
Design Process
25%
Binder
25%
Microstructural Characteristics
25%
Load Capability
25%
Reinforced
25%
Material Design
25%
Degradation Mechanism
25%
Step-by-step Approach
25%
Improved Material
25%
Material Characteristics
25%
Material Wear
25%
Complex Structure
25%
Novel Combinations
25%
Complex Interactions
25%
Cermet
25%
Metallic Binder
25%
Improved Process
25%
Mechanical Characteristics
25%
Material Damage
25%
Splat
25%
Ceramic Particles
25%
Nanostructured Coatings
25%
Open Porosity
25%
Process Map
25%
Mechanical Damage
25%
Surface Damage
25%
Composite Design
25%
Tangential Force
25%
Brittle Phase
25%
Strategy Evaluation
25%
Deposit Structure
25%
Mechanism Maps
25%
Abrasive Particle Size
25%
Wear-resistant Surface
25%
Composite Wear
25%
Correlations between Relatives
25%
Resistant Structure
25%
Supersonic Flame
25%
Metallic Composites
25%
Tribological Contact
25%
Contact Condition
25%
Complex Composites
25%
Tribological Conditions
25%
INIS
wear
100%
carbides
100%
wear resistance
100%
spray coating
100%
coating processes
100%
properties (mechanical)
100%
performance
62%
microstructure
62%
particles
62%
coatings
50%
surfaces
37%
particle size
37%
damage
37%
control
25%
interactions
25%
correlations
25%
mechanical properties
25%
ceramics
25%
velocity
25%
deposits
25%
binders
25%
maps
25%
sprays
25%
flames
25%
assessments
12%
hardness
12%
applications
12%
design
12%
increasing
12%
nanostructures
12%
porosity
12%
cracks
12%
composite materials
12%
abrasives
12%
cermets
12%
Engineering
Thermal Spray Process
100%
Mechanical Degradation
100%
Wear (Damage)
100%
Process Design
50%
Starting Material
50%
Process Parameter
50%
Material Characteristic
50%
Damage Mechanism
50%
Step Approach
50%
Microstructural Characteristic
50%
Complex Structure
50%
Abrasive Particle
50%
Nanocoating
50%
Contact Condition
50%
Process Map
50%
Cermet
50%
Porosity
50%
Composite Material
50%
Mechanical Property
50%
Material Science
Carbide
100%
Coating Process
100%
Mechanical Degradation
100%
Thermal Spray
50%
Surface (Surface Science)
50%
Contact Condition
25%
Surface Damage
25%
Mechanical Property
25%
Composite Material
25%
Cermet
25%