Matrix morphology and the particle dispersion in HDPE nanocomposites with enhanced wear resistance

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%