Thixocasting of Al-7%Si Alloy Billets Prepared by Ultrasonic Treatment

Waleed Khalifa; Yoshiki Tsunekawa

doi:10.4028/www.scientific.net/SSP.256.276

Paper Titles

Development of Unconventional Processing of Steels in Semi-Solid State
p.251

Application of Radial Forging and Remelting Treatment to Prepare Semi-Solid Billet of AlMg0.7Si Alloy
p.257

Rheo-Forming AZ91D Magnesium Alloy Using Enthalpy Equilibrium Electromagnetic-Stirring Process
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The Study of A356 Alloy Rheo-Squeeze Casting Process
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Thixocasting of Al-7%Si Alloy Billets Prepared by Ultrasonic Treatment
p.276

Ultrasonic Rheo-Diecasting of A383 Aluminum Alloy
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Microstructure and Rheological Properties of Semi-Solid 7075 Slurries Using SEED Rheocasting Process
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Microstructure Evolution and Coarsening Mechanism of 7075 Semi-Solid Aluminum Alloy Pre-Deformed by ECAP Method
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A New Rheo-HPDC Process with Air-Cooled Stirring Rod Device for Wireless Base Station Shells of Al-8Si Alloy
p.303

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Thixocasting of Al-7%Si Alloy Billets Prepared by Ultrasonic Treatment

Abstract:

The feasibility of using the ultrasonic melt treatment to prepare billets for thixocasting process of hypoeutectic Al-7%Si alloys was studied in this paper. The work covered the billet preparation, soaking treatments and thixocasting process, with focus on the microstructural features in each case. The results showed that the use of ultrasonic treatment in billet preparation resulted in highly uniform, fine and non-dendritic microstructures. Billets with globule sizes as small as 58 µm, and roundness of more than 0.7 were obtained by ultrasonic melt treatment. Different soaking conditions before thixocasting were done and the optimum from which was the soaking for 5 min at 580°C, which resulted in thixocast parts with excellent combination of fine globules of 80 µm and roundness of 0.7 - 0.81. The eutectic Si, as well, was greatly refined by the ultrasonic thixocasting process. Furthermore, high-Fe ultrasonic treated billets, which were thixocasted successfully, exhibited Fe-intermetallic particles in highly desirable fine compacted form. These results reveal the feasibility and competence of UST as a potential route for feedstock production.