Physics – Condensed Matter – Materials Science
Scientific paper
2011-07-22
Physics
Condensed Matter
Materials Science
28 pages, 1 table, 9 figures, accepted for publication in Acta Materialia
Scientific paper
We propose structure models of the unique long-period stacking/order (LPSO) phases formed in the Mg-Zn-RE alloys, based on Z-contrast scanning transmission electron microscopy (STEM) observations and first-principles calculations. The LPSO structures are long-period stacking derivatives of the hcp-Mg structure, and the Zn/RE distributions are restricted at the four close-packed atomic layers forming local fcc-stacking (i.e., a local ABCA stacking). Chemical order is well developed for the LPSO phases formed in Mg97Zn1Er2 (14H-type) and Mg85Zn6Y9 (18R-type) alloys with pronounced superlattice reflections, and the relevant Zn/RE distributions are clearly emerged in the Z-contrast atomic images. Initial ternary-ordered models are constructed by placing all the atoms at the ideal honeycomb sites, leading to plausible space groups of P63/mcm for 14H-type and C2/m, P3112 or P3212 for 18R-type. Characteristic ordered feature is well represented by the local Zn6RE8 clusters, which are embedded in the fcc-stacking layers in accordance with the L12-type short-range order. Energy-favored structural relaxations of the initial model cause significant displacements of the Zn/RE positions, implying that strong Zn-RE interactions may play a critical role for the phase stability. The LPSO phases seem to tolerate a considerable degree of disorder at the Zn and RE sites with statistical co-occupations by Mg, extending the non-stoichiometry phase region bounded along the Zn/RE equi-atomic line from ~Mg94.0Zn2.0Y4.0 to ~Mg83.3Zn8.3Y8.3.
Abe Eiji
Egusa Daisuke
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