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Ultrasonication effects on thermal and rheological properties of carbon nanotube suspensions
Binglu Ruan,
Anthony M. Jacobi
Mechanical Science and Engineering
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Keyphrases
Thermal Properties
100%
Nanofluid
100%
Rheological Properties
100%
Ultrasonication
100%
Carbon Nanotube Suspensions
100%
Viscosity
57%
Carbon Nanotubes
57%
Sonication Time
57%
Agglomerate Size
57%
Thermal Conductivity
42%
Base Fluid
42%
Nanotube Length
28%
Sonication Effect
28%
Preparation Method
14%
Ethylene Glycol
14%
Agglomerates
14%
Thermophysical Properties
14%
Sonication Method
14%
Viscosity Increase
14%
Heat Transfer Performance
14%
Nanofluid Preparation
14%
Nanoparticle Fluids
14%
Thermal Conductivity Enhancement
14%
Nanofluids Properties
14%
Nanoparticle Dispersion
14%
Material Science
Carbon Nanotube
100%
Thermal Property
100%
Thermal Conductivity
80%
Nanoparticle
40%
Thermophysical Property
20%
Chemical Engineering
Carbon Nanotube
100%
Thermal Conductivity
80%
Nanoparticle
40%
Ethylene
20%