Keyphrases
Heat Exchanger
100%
Thermally Enhanced
100%
Polyethylene Nanocomposites
100%
Polymer Heat Exchanger
100%
Thermal Conductivity
75%
Graphene-based Materials
50%
Polyethylene
50%
Graphene Hybrids
50%
Filler Alignment
50%
Neat Polymers
50%
Mechanical Properties
25%
Graphite
25%
Am(III)
25%
Low-density Polyethylene
25%
Reynolds number
25%
Overall Heat Transfer Coefficient
25%
Wettability
25%
Scale Formation
25%
Stiffness
25%
Polymer-based
25%
Low Thermal Conductivity
25%
Young's Modulus
25%
Cold Water
25%
Poly(methyl methacrylate)
25%
Hot Water
25%
Enhanced Resistance
25%
Anisotropy
25%
Corrosion Fouling
25%
Volume Ratio
25%
Expanded Graphite
25%
Ductility
25%
Corrosion Scale
25%
Hot Pressing
25%
Resistance to Fouling
25%
Resistance to Corrosion
25%
Multilayered Structure
25%
Heat Transfer Study
25%
Hybrid Graphene
25%
Plate-like
25%
Filler Loading
25%
Melt Blending
25%
Low-density Polyethylene Nanocomposites
25%
Nanocomposite Plate
25%
Methacrylate-based
25%
Alignment Control
25%
Fouling Formation
25%
Multi-effect Distillation Unit
25%
Engineering
Nanocomposite
100%
Heat Exchanger Application
100%
Graphene
80%
Exchanger
60%
Thermal Conductivity
60%
Low Density Poly-Ethylene
40%
Neat Polymer
40%
Fouling
20%
Experimental Result
20%
Multi-Effect Distillation
20%
Heat Transfer Coefficient
20%
Young's Modulus
20%
Reynolds' Number
20%
Low Thermal Conductivity
20%
Hot Water
20%
Volume Ratio
20%
Expanded Graphite
20%
Hot Pressing
20%
Material Science
Polyethylene
100%
Nanocomposite
100%
Graphene
66%
Thermal Conductivity
66%
Density
33%
Corrosion
16%
Wettability
16%
Young's Modulus
16%
Poly Methyl Methacrylate
16%
Hot Pressing
16%
Anisotropy
16%
Cold Water
16%
Chemical Engineering
Graphene
100%
Thermal Conductivity
100%
Fouling
25%
Heat Transfer Coefficient
25%
Polymethyl Methacrylate
25%