Add to ORKGHigh intensity ultrasonic processing is a good way to fabricate nano-composite. In order to study the dispersion process of nano-whiskers under high intensity ultrasonic, numerical and physical simulations of nano-whiskers' dispersion under high intensity ultrasonic were carried out by using glycerol as fluid medium. The numerical simulation results show that ultrasonic forces the fluid to flow along the center line-bottom-wall-center line route and flow velocity is the maximum near the probe tip edge. Besides, the flow velocity increases with the increase of ultrasonic power. The physical simulation results are in good agreement with the numerical simulation results. In addition, cavitation as well as convection is found in the glycerol du...
Ultrasonic processing in the cavitation mode is used to produce the composite materials based on the...
Microjets caused by the cavitation effect in microchannels can affect the motion trajectory of solid...
There has been considerable interest in the noninvasive manipulation of particles in dispersions dur...
Improving dispersion stability of nanofluids through ultrasonication has been shown to be effective....
Dispersion of carbon nanotubes and carbon nanofibers is a crucial processing step in the production ...
WOS: 000254443900041PubMed ID: 17977777In most applications, nanoparticles are required to be in a w...
In present study, 6061 and A356 based nano-composites are fabricated by using the ultrasonic stirrin...
The metal–matrix-nano-composites (MMNCs) in this study consist of a 6061 alloy matrix reinforced wit...
138-143Nano-size materials Nano-size dispersions and emulsions Nano-sizing Ultrasound Cavitation Dea...
Strong evidence is showing that microstructure and mechanical properties of a casting component can ...
Nano-particles can localize at oil–water (O/W) interface, reduce residual oil saturation, increase t...
Two decades have been going on since nanofluid was introduced with the hope that it could enhance th...
In the ultrasonic dispersion process, the ultrasonic cavitation effect can seriously affect the disp...
Different industrial mixing methods and some of their combinations (1) ultrasound; (2) stirring; (3)...
Ultrasonic techniques offer advantages for process monitoring for dispersions of colloidal or nano p...
Ultrasonic processing in the cavitation mode is used to produce the composite materials based on the...
Microjets caused by the cavitation effect in microchannels can affect the motion trajectory of solid...
There has been considerable interest in the noninvasive manipulation of particles in dispersions dur...
Improving dispersion stability of nanofluids through ultrasonication has been shown to be effective....
Dispersion of carbon nanotubes and carbon nanofibers is a crucial processing step in the production ...
WOS: 000254443900041PubMed ID: 17977777In most applications, nanoparticles are required to be in a w...
In present study, 6061 and A356 based nano-composites are fabricated by using the ultrasonic stirrin...
The metal–matrix-nano-composites (MMNCs) in this study consist of a 6061 alloy matrix reinforced wit...
138-143Nano-size materials Nano-size dispersions and emulsions Nano-sizing Ultrasound Cavitation Dea...
Strong evidence is showing that microstructure and mechanical properties of a casting component can ...
Nano-particles can localize at oil–water (O/W) interface, reduce residual oil saturation, increase t...
Two decades have been going on since nanofluid was introduced with the hope that it could enhance th...
In the ultrasonic dispersion process, the ultrasonic cavitation effect can seriously affect the disp...
Different industrial mixing methods and some of their combinations (1) ultrasound; (2) stirring; (3)...
Ultrasonic techniques offer advantages for process monitoring for dispersions of colloidal or nano p...
Ultrasonic processing in the cavitation mode is used to produce the composite materials based on the...
Microjets caused by the cavitation effect in microchannels can affect the motion trajectory of solid...
There has been considerable interest in the noninvasive manipulation of particles in dispersions dur...