On the solid solution substitutional position and properties of Mg-Gd alloy

The effects of gadolinium addition on crystallographic characteristics (lattice parameters, c/a ratios, solid solution substitutional position) and physical properties (electrical con-ductivity, Vickers hardness and mechanical performance) of Mg-Gd alloy were investi-gated in the present work. The results show that the Gd atoms in Mg-Gd binary alloy prefer to be located on the prismatic plane. The solid solution strengthening and ductil-izing effect of Mg-Gd alloy mainly occurs in the composition range of 1-4 wt.% Gd. With the increase of Gd content, the axial ratio c/a of the extruded alloy first decreases and then increases, which is consistent with the change law of the alloy ductility. With the increase of Gd content in the low addition range, the starting resistance of basal slip increases sharply, while that of prismatic slip increases slowly. The difference between these two kinds of resistance gradually approaches to a certain extent with the increase of Gd con-tent, which is beneficial to the coordination of basal slip and prismatic slip, and plays a plasticizing role. However, when the Gd content exceeds a certain amount, the volume fraction of the second phase in the alloy is too high, which is unfavourable to the elasticity. Under the high addition of Gd, when the starting resistance of prismatic slip and basal slip tend to be close and the difference is relatively constant, the hardening exponent also decreases to a relatively low stable value.(c) 2022 The Author(s). Published by Elsevier B.V. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).

Automated summary

The effects of gadolinium addition on crystallographic characteristics and physical properties of Mg-Gd alloy were investigated. The results show that gadolinium atoms prefer to be located on the prismatic plane. Solid solution strengthening and ductilizing effect occur in the range of 1-4 wt.% gadolinium. The alloy's ductility and crystallographic characteristics change with an increase in gadolinium content.