通过直接带材铸造工艺提高再生铝合金的容铁性

IF 2.5 3区 材料科学 Q3 GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY Journal of Sustainable Metallurgy Pub Date : 2024-05-17 DOI:10.1007/s40831-024-00844-z
L. Jiang, R. K. W. Marceau, T. Dorin
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引用次数: 0

摘要

再生铝合金具有强度高、耐久性好和环保等优点,在可持续生产中发挥着关键作用。然而,铁(Fe)杂质的存在构成了一项重大挑战,破坏了铝合金的性能和可回收性。传统的制造工艺会产生粗糙的富铁金属间化合物,限制了对铁含量的容忍度,并对先进铝合金的性能产生负面影响。为解决这一问题,人们探索了快速凝固技术,如直接带状铸造。在这项工作中,我们利用扫描电子显微镜、电子反向散射衍射和原子探针断层扫描技术对带状铸造的微观结构进行了详细研究。我们的研究结果表明,通过直接带状铸造生产的合金微观结构明显细化,不存在粗大的富铁金属间化合物,从而在固溶体中保留了大部分铁。这些研究结果表明,带材铸造可显著提高铝合金的耐铁性,使其成为未来铝回收利用的一种有吸引力的工艺,对可持续高性能应用具有重要意义。
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Improved Iron-Tolerance in Recycled Aluminum Alloys via Direct Strip Casting Process

Recycled aluminum alloys are pivotal for sustainable manufacturing, offering strength, durability, and environmental advantages. However, the presence of iron (Fe) impurities poses a major challenge, undermining their properties and recyclability. Conventional manufacturing processes result in coarse Fe-rich intermetallic compounds that limit the tolerance of Fe content and negatively influence performance of advanced aluminum alloys. To address this, rapid solidification techniques like direct strip casting have been explored. In this work, a detailed study of the strip cast microstructure was conducted by scanning electron microscopy, electron backscattered diffraction and atom probe tomography. Our results reveal that alloys produced by direct strip casting exhibit significantly refined microstructures and are free from coarse Fe-rich intermetallics, thereby retaining the majority of Fe in solid solution. These findings indicate that strip casting significantly enhances Fe-tolerance in aluminum alloys, making it an attractive process for future aluminum recycling, with implications for sustainable high-performance applications.

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来源期刊
Journal of Sustainable Metallurgy
Journal of Sustainable Metallurgy Materials Science-Metals and Alloys
CiteScore
4.00
自引率
12.50%
发文量
151
期刊介绍: Journal of Sustainable Metallurgy is dedicated to presenting metallurgical processes and related research aimed at improving the sustainability of metal-producing industries, with a particular emphasis on materials recovery, reuse, and recycling. Its editorial scope encompasses new techniques, as well as optimization of existing processes, including utilization, treatment, and management of metallurgically generated residues. Articles on non-technical barriers and drivers that can affect sustainability will also be considered.
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