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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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Physics & Astronomy
carbon nanotubes
57%
thermodynamic properties
54%
viscosity
48%
thermal conductivity
42%
fluids
23%
preparation
19%
nanoparticles
18%
augmentation
16%
thermophysical properties
15%
glycols
14%
ethylene
13%
heat transfer
10%
performance
5%
energy
3%
Engineering & Materials Science
Sonication
100%
Carbon nanotubes
71%
Thermodynamic properties
62%
Viscosity
34%
Thermal conductivity
30%
Nanoparticles
16%
Fluids
16%
Heat transfer performance
9%
Chemical Compounds
Sonication
69%
Rheology
60%
Suspension
52%
Carbon Nanotube
48%
Length
15%
Heat Transfer
9%
Reduction
7%
Thermodynamic Property
7%
Purity
4%
Application
2%