Application of Ce for scavenging Cu impurities in A356 Al alloys

Application of Ce for scavenging Cu impurities in A356 Al alloys

Secondary (recycled) Al is increasingly used in castings due to its lower cost and carbon footprint relative to primary Al. However, the presence of certain impurity elements in secondary Al degrades its properties, often requiring dilution or downgrading. Scavenging impurities with reactive alloyin...

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Bibliographic Details
Main Authors: Zachary C. Sims, Hunter B. Henderson, Michael J. Thompson, Rakesh P. Chaudhary, Joshua A. Hammons, Jan Ilavsky, David Weiss, Kevin Anderson, Ryan Ott, Orlando Rios
Format: Article
Language:English
Published: Taylor & Francis Group 2022-01-01
Series:European Journal of Materials
Subjects:
aluminium
rare earths
recycling
Online Access:http://dx.doi.org/10.1080/26889277.2021.1974801
Description
Summary:Secondary (recycled) Al is increasingly used in castings due to its lower cost and carbon footprint relative to primary Al. However, the presence of certain impurity elements in secondary Al degrades its properties, often requiring dilution or downgrading. Scavenging impurities with reactive alloying additions can limit impurity impact and broaden the use of secondary Al. This report will detail the initial results of using Ce to microstructurally tie up Cu impurities present in a model secondary Al alloy (A356) with high Cu impurity. The results show that targeted Ce additions to A356 can be used to scavenge Cu impurities by forming complex intermetallics and inhibit intergranular corrosion susceptibility associated with Cu impurities. Supplemental data for this article is available online at
ISSN:2688-9277

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