Add to ORKGIn an attempt to quantify the instantaneous pressure field in cavitating liquids at large forcing signals, pressures were measured in four different liquids contained in vessels with a frequency mode in resonance with the forcing signal. The pressure field in liquid metal was quantified for the first time, with maximum pressures of the order of 10–15 MPa measured in liquid aluminium. These high pressures are presumed to be responsible for deagglomeration and fragmentation of dendritic intermetallics and other inclusions. Numerical modelling showed that acoustic shielding attenuates pressure far from the sonotrode and it is prominent in the transparent liquids studied but less so in aluminium, suggesting that aluminium behaviour is different...
Data availability statement: The processed data required to reproduce these findings are available t...
The prediction of the acoustic pressure field and associated streaming is of paramount importance to...
The application of ultrasound to casting processes is a subject of great interest: the resulting deg...
In an attempt to quantify the instantaneous pressure field in cavitating liquids at large forcing si...
In an attempt to quantify the instantaneous pressure field in cavitating liquids at large forcing si...
In an attempt to quantify the instantaneous pressure field in cavitating liquids at large forcing si...
In an attempt to quantify the instantaneous pressure field in cavitating liquids at large forcing si...
The acoustic streaming behaviour below an ultrasonic sonotrode in water was predicted by numerical s...
Currently, fundamental experimental studies in liquid metals are limited as there are very few avail...
Currently, fundamental experimental studies in liquid metals are limited as there are very few avail...
The application of ultrasound to industrial casting processes has attracted research interest during...
Ultrasonic (cavitation) melt processing attracts considerable interest from both academic and indust...
To address difficulties in treating large volumes of liquid metal with ultrasound, a fundamental stu...
Ultrasonic (cavitation) melt processing attracts considerable interest from both academic and indust...
Ultrasonic (cavitation) melt processing attracts considerable interest from both academic and indust...
Data availability statement: The processed data required to reproduce these findings are available t...
The prediction of the acoustic pressure field and associated streaming is of paramount importance to...
The application of ultrasound to casting processes is a subject of great interest: the resulting deg...
In an attempt to quantify the instantaneous pressure field in cavitating liquids at large forcing si...
In an attempt to quantify the instantaneous pressure field in cavitating liquids at large forcing si...
In an attempt to quantify the instantaneous pressure field in cavitating liquids at large forcing si...
In an attempt to quantify the instantaneous pressure field in cavitating liquids at large forcing si...
The acoustic streaming behaviour below an ultrasonic sonotrode in water was predicted by numerical s...
Currently, fundamental experimental studies in liquid metals are limited as there are very few avail...
Currently, fundamental experimental studies in liquid metals are limited as there are very few avail...
The application of ultrasound to industrial casting processes has attracted research interest during...
Ultrasonic (cavitation) melt processing attracts considerable interest from both academic and indust...
To address difficulties in treating large volumes of liquid metal with ultrasound, a fundamental stu...
Ultrasonic (cavitation) melt processing attracts considerable interest from both academic and indust...
Ultrasonic (cavitation) melt processing attracts considerable interest from both academic and indust...
Data availability statement: The processed data required to reproduce these findings are available t...
The prediction of the acoustic pressure field and associated streaming is of paramount importance to...
The application of ultrasound to casting processes is a subject of great interest: the resulting deg...