Abstract
The Al-Cu 206 cast alloys with varying alloy compositions (i.e., different levels of Fe, Mn, and Si) were investigated to evaluate the effect of the iron-rich intermetallics on the tensile properties. It is found that the tensile strength decreases with increasing iron content, but its overall loss is less than 10 pct over the range of 0.15 to 0.5 pct Fe at 0.3 pct Mn and 0.3 pct Si. At similar iron contents, the tensile properties of the alloys with dominant Chinese script iron-rich intermetallics are generally higher than those with the dominant platelet phase. In the solution and artificial overaging condition (T7), the tensile strength of the 206 cast alloys with more than 0.15 pct Fe is satisfactory, but the elongation does not sufficiently meet the minimum requirement of ductility (>7 pct) for critical automotive applications. However, it was found that both the required ductility and tensile strength can be reached at high Fe levels of 0.3 to 0.5 pct for the alloys with well-controlled alloy chemistry and microstructure in the solution and natural aging condition (T4), reinforcing the motivation for developing recyclable high-iron Al-Cu 206 cast alloys.
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INSTRON is a trademark of Illinois Tool Works Inc. (ITW), Glenview, IL.
PERKINELMER is a trademark of PerkinElmer, Inc., Waltham, MA.
JEOL is a trademark of Japan Electron Optics, Ltd., Tokyo.
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Acknowledgments
The authors acknowledge the financial support from the Natural Sciences and Engineering Research Council of Canada (NSERC) and Rio Tinto Alcan, through the NSERC Industry Research Chair in Metallurgy of Aluminum Transformation at the University of Quebec at Chicoutimi. Great thanks are also due to the invaluable comments on this manuscript by Professor J. Campbell, University of Birmingham.
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X. CAO—This manuscript is published with the permission of the National Research Council of Canada, by right of the Crown in Right of Canada.
Manuscript submitted June 11, 2013.
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Liu, K., Cao, X. & Chen, XG. Tensile Properties of Al-Cu 206 Cast Alloys with Various Iron Contents. Metall Mater Trans A 45, 2498–2507 (2014). https://doi.org/10.1007/s11661-014-2207-3
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DOI: https://doi.org/10.1007/s11661-014-2207-3