INIS
morphology
100%
dispersions
100%
particles
100%
matrices
100%
nanocomposites
100%
wear resistance
100%
nanopowders
62%
oxides
37%
graphene
37%
peaks
37%
xrd
37%
performance
25%
thickness
25%
polymers
25%
wear
25%
molecular weight
25%
melting points
25%
afm
25%
elevation
25%
modifications
12%
density
12%
data
12%
aspect ratio
12%
coupling
12%
additives
12%
range
12%
polyethylenes
12%
solids
12%
mixing
12%
glass
12%
transition temperature
12%
melting
12%
abrasives
12%
orthorhombic lattices
12%
amorphous state
12%
titanium nitrides
12%
Keyphrases
Aluminum Oxide
100%
Wear Resistance
100%
Particle Dispersion
100%
Matrix Morphology
100%
HDPE Nanocomposites
100%
Nanopowder
83%
Graphene Nanoplatelets
50%
High Molecular Weight
33%
Vol%
33%
Melting Temperature
33%
DSC Analysis
33%
High Aspect Ratio
16%
Al2O3 Oxide
16%
Well-dispersed
16%
AFM Observation
16%
Sliding Wear Behavior
16%
Glass Transition Temperature
16%
Titanium Nitride
16%
Degree of Crystallinity
16%
Amorphous Phase
16%
Melt Blending
16%
Coupling Agent
16%
TEM Observation
16%
Scherrer
16%
Lamellar Thickness
16%
Orthorhombic
16%
Irregular Shape
16%
Micromechanical Properties
16%
HDPE Material
16%
Polyethylene Nanocomposites
16%
XRD Data
16%
Melting Peak
16%
Peak Splitting
16%
Abrasive Wear Performance
16%
Vinylsilane
16%
High-density Polyethylene
16%
Dispersion Quality
16%
Material Science
Wear Resistance
100%
Nanocomposite
100%
Aluminum Oxide
87%
Nanopowders
62%
Differential Scanning Calorimetry
37%
X-Ray Diffraction
37%
Graphene Oxide
37%
Platelet
37%
Polyethylene
12%
Sliding Wear
12%
Glass Transition Temperature
12%
Coupling Agent
12%
Nitride Compound
12%
Density
12%
Titanium
12%
Amorphous Material
12%