Add to ORKGThis experiment utilized five Aluminum alloys with silicon content percentages of 7, 10, 12.6, 14.5 and 17(wt)%. Ultrasonic vibration was applied to improved the quality of aluminum alloys. Sono-solidification, in which ultrasound vibrations are applied to molten metal during its solidification, is expected to cause improved mechanical properties due to grain refinement. Observed by microstructure photographs was that grains became smaller and their shapes more regular. Using ultra sound solidification α Al appeared during ultrasound treatment the eutectic solidification time was longest around 10% compared with same condition experiment without ultrasound treatment
Abstract- The refinement of the grain size will improve the mechanical properties of AA-356 alloy by...
In this study, ultrasonic vibration (USV) was evaluated in preparation of Al–8wt.%Cu alloys at a lab...
AbstractThe liquid phase separation process and solidification process of ternary Al81.3Sn12.3Cu6.4 ...
This experiment utilized five Aluminum alloys with silicon content percentages of 7, 10, 12.6, 14.5 ...
The use of physical agents when casting aluminum alloys has proven to be an effective route for grai...
An overview of our investigations on solidification microstructure formation under ultrasonication i...
The research in ultrasonic processing for metallurgical application shows a promising influence on i...
The microstructural refinement of 2195 aluminum alloy ingots is particularly important for improving...
Solidification microstructures formed under high-intensity ultrasonication are systematically invest...
The application of ultrasonic vibrations when casting aluminium alloys can improve the final quality...
It is well known that it takes some time for the solid phase to completely dissolve upon melting, es...
Solidification microstructures formed under high-intensity ultrasonication are systematically invest...
During the last years aluminium alloys have been gaining increased acceptance as structural material...
The influence of high intensity ultrasound (US) propagating through a steel mold on the microstructu...
It is well known that it takes some time for the solid phase to completely dissolve upon melting, es...
Abstract- The refinement of the grain size will improve the mechanical properties of AA-356 alloy by...
In this study, ultrasonic vibration (USV) was evaluated in preparation of Al–8wt.%Cu alloys at a lab...
AbstractThe liquid phase separation process and solidification process of ternary Al81.3Sn12.3Cu6.4 ...
This experiment utilized five Aluminum alloys with silicon content percentages of 7, 10, 12.6, 14.5 ...
The use of physical agents when casting aluminum alloys has proven to be an effective route for grai...
An overview of our investigations on solidification microstructure formation under ultrasonication i...
The research in ultrasonic processing for metallurgical application shows a promising influence on i...
The microstructural refinement of 2195 aluminum alloy ingots is particularly important for improving...
Solidification microstructures formed under high-intensity ultrasonication are systematically invest...
The application of ultrasonic vibrations when casting aluminium alloys can improve the final quality...
It is well known that it takes some time for the solid phase to completely dissolve upon melting, es...
Solidification microstructures formed under high-intensity ultrasonication are systematically invest...
During the last years aluminium alloys have been gaining increased acceptance as structural material...
The influence of high intensity ultrasound (US) propagating through a steel mold on the microstructu...
It is well known that it takes some time for the solid phase to completely dissolve upon melting, es...
Abstract- The refinement of the grain size will improve the mechanical properties of AA-356 alloy by...
In this study, ultrasonic vibration (USV) was evaluated in preparation of Al–8wt.%Cu alloys at a lab...
AbstractThe liquid phase separation process and solidification process of ternary Al81.3Sn12.3Cu6.4 ...