Ultrasonication effects on thermal and rheological properties of carbon nanotube suspensions

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%