Grain boundary plasticity in Mg binary alloys by segregation of p-block element

Hidetoshi Somekawa; Tomohito Tsuru; Alok Singh

doi:10.1016/j.msea.2023.146066

論文 Grain boundary plasticity in Mg binary alloys by segregation of p-block element

Hidetoshi Somekawa (National Institute for Materials Science) ; Tomohito Tsuru ; Alok Singh (National Institute for Materials Science)

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Hidetoshi Somekawa, Tomohito Tsuru, Alok Singh. Grain boundary plasticity in Mg binary alloys by segregation of p-block element. Materials Science and Engineering: A. 2024, 893 (), 146066. https://doi.org/10.1016/j.msea.2023.146066

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(abstract)

The effect of p-block elements (Ga, Ge and In) addition on grain boundary structures and room temperature mechanical responses was investigated on extruded Mg binary alloys with fine-grained structures. Grain boundary segregation was confirmed in the Mg-Ga and Mg-In alloys, whereas the Mg-Ge alloy did not show such microstructures associated with solubility. Grain boundary segregation affected the plastic deformation of the Mg-Ga and Mg-In alloys. In particular, the Mg-In alloy had a large strain rate dependency and exhibited good deformability at low strain rate regimens. First-principles calculations indicated that p-block elements produce a bond-weakening effect at grain boundaries, and atomistic distances at grain boundaries varies according to each element. Solute atom which brings about both bond-weakening and bond-expansion effects to Mg atoms is effective in enhancing the contribution of grain boundary sliding in deformation.

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