Achieving a high-strength binary Mg–15Gd alloy by nano substructure with Gd segregation and nano clusters1

R. G. Li; Y. Yan; H. C. Pan; H. Zhang; J. R. Li; G. W. Qin; B. S. Liu

Journal ArticleOPEN ACCESS

Achieving a high-strength binary Mg–15Gd alloy by nano substructure with Gd segregation and nano clusters1

Materials Research Letters (2022) 10(10) 682-689

DOI: 10.1080/21663831.2022.2086834

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Abstract

A high-strength binary Mg–15Gd alloy plate, prepared by the conventional extrusion, warm-rolling and aging, exhibits an excellent mechanical property with 504, 518 MPa and 4.5% for yield strength, ultimate tensile strength and elongation, which is mainly attributed to the nano substructure with boundary segregation of Gd atoms, the high-density nano clusters induced by dislocations in the interior of grains, the high-density dynamical precipitates with submicron size, and the strong basal texture.

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Li, R. G., Yan, Y., Pan, H. C., Zhang, H., Li, J. R., Qin, G. W., & Liu, B. S. (2022). Achieving a high-strength binary Mg–15Gd alloy by nano substructure with Gd segregation and nano clusters1. Materials Research Letters, 10(10), 682–689. https://doi.org/10.1080/21663831.2022.2086834

Achieving a high-strength binary Mg–15Gd alloy by nano substructure with Gd segregation and nano clusters1

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