Effect of Iron Content on 319 Semi-Solid Alloys using the SEED Method

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Proceedings titleProceedings of the 115th Metalcasting Congress: American Foundrymen Society
ConferenceThe 115th American Foundrymen Society Metalcasting Congress, Schaumburg, Illinois, USA, April 05-08, 2011
AbstractAluminum-silicon alloys represent a majority of cast alloys used in the automotive industry, as these alloys can be molded into complex shapes with relative ease. Cast aluminum-silicon-copper alloys, or 319 aluminum alloys, for example, are a popular choice in the fabrication of engine blocks. The addition of copper to Al-Si aids in maintaining the casting integrity when in service (with temperatures exceeding 200°C (392F)). Although numerous publications have explored the use of cast 319 alloys, there is still very little in terms of literature with respect to semi-solid cast 319 alloys. Semi-solid casting, where an alloy is prepared as a slurry, is fast becoming a popular casting method due to the dual liquid-solid nature of the resulting billet. The billet remains still, as if solid, yet flows under the action of an applied shear force. A semi-solid rheocast 319 aluminum alloy was prepared for this study using the SEED (Swirled Enthalpy Equilibration Device) casting method, as developed by Rio Tinto Alcan in collaboration with the Aluminium Technology Centre of NRC Canada. This process uses heat extraction of the liquid aluminum alloy via agitation (swirling) in a confined cylinder to form the semi-solid billet. The resulting microstructure consists of alpha aluminum globules surrounded by the eutectic phase. In this work, the iron content of the 319 semi-solid alloy was altered, and the changes in microstructure and mechanical properties were observed. The chief objective of this ongoing study is to use recycled aluminum (with iron traces) for future casting, as opposed to higher purity aluminum. The SEED process itself has proven successful in obtaining high integrity 356/357 castings, among others; therefore, it is also the authors' intent to develop SEED as a fully industrial process.
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AffiliationNational Research Council Canada; NRC Industrial Materials Institute
Peer reviewedNo
NRC number53437
NPARC number17829613
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Record identifiere72cb088-879c-4d2b-96c5-0a747abf0ec2
Record created2011-05-18
Record modified2016-05-09
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