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Superior ductility in magnesium alloy-based nanocomposites: the crucial role of texture induced by nanoparticles

Tekumalla, S and Bibhanshu, N and Suwas, S and Gupta, M (2019) Superior ductility in magnesium alloy-based nanocomposites: the crucial role of texture induced by nanoparticles. In: Journal of Materials Science .

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Official URL: https://doi.org/10.1007/s10853-019-03460-5

Abstract

In an expansive field of metals, magnesium has been trending of late in automobile, aerospace, defense, sports, electronic and biomedical sectors as it offers an advantage in lightweighting. In the realm of Mg-based materials, Mg nanocomposites have a good combination of specific strength, thermal and damping properties, but lack a high ductility and do not typically undergo a large amount of uniform elongation. The current work bridges this gap by reporting a magnesium nanocomposite (Mg�1.8Y/1.5Y 2 O 3 ) that exhibits a significantly high tensile ductility of 36. Microstructural characterization of the nanocomposite revealed that the striking presence of micron-Mg�Y phases and nano-Y 2 O 3 particles in matrix led to a bimodal particle distribution which affected the dynamic recrystallization mechanism. It was also observed that the addition of Y 2 O 3 nanoparticles weakened the texture of nanocomposite. The dominating influence of texture weakening over other mechanisms (grain refinement and alleviated micro-strain) on the plastic deformation/ductility of the nanocomposite is highlighted, and the contribution of nanoparticles toward the enhancement of ductility is ascertained. In contrast to the previous studies where Mg-based nanocomposites are known to have improved strengths, this approach can be used to develop magnesium nanocomposites that are exceptional. © 2019, Springer Science+Business Media, LLC, part of Springer Nature.

Item Type: Journal Article
Publication: Journal of Materials Science
Publisher: Springer New York LLC
Additional Information: Copyright of this article belongs to Springer New York LLC
Keywords: Ductility; Dynamic recrystallization; Fighter aircraft; Grain refinement; Nanocomposites; Nanoparticles; Textures, Biomedical sectors; High tensile ductility; Magnesium nano-composites; Mg-based materials; Micro-structural characterization; Recrystallization mechanisms; Specific strength; Uniform elongation, Magnesium alloys
Department/Centre: Division of Mechanical Sciences > Materials Engineering (formerly Metallurgy)
Date Deposited: 16 Apr 2019 06:43
Last Modified: 16 Apr 2019 06:43
URI: http://eprints.iisc.ac.in/id/eprint/62109

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