Phase relations, structure, properties and DFT study of compounds in the Sc-rich part of the systems Sc-{Mn,Fe,Co,Ni}-Ga

Author(s)

V. V. Romaka, Gerda Rogl, Georg Binder, Herwig Michor, Jiri Bursik, Andriy Grytsiv, Gerald Giester, Peter Franz Rogl

Abstract

Phase relations have been derived for the Sc-rich parts of the ternary systems Sc-T-Ga at 850 °C (T = Mn,Fe,Co,Ni) as well as for the corresponding regions of the pertinent binary systems. "Sc4Mn" was not observed, but hexagonal Sc2Ga (space group P63mc, unique type) is a binary phase (at 29–31 at% Ga) with a peritectic decomposition temperature (at 1075 °C) close to the corresponding eutectic with scandium at 1065 °C and 17.5 at% Ga. Electron microprobe analyses (EPMA) revealed very limited solid solubilities at 850 °C of T-elements in Sc (<2 at% T). Although the maximal solubility of Ga in Sc at 850 °C is about 1 at% Ga, it renders the Sc-phase brittle. An X-ray single crystal structure analysis and TEM investigation defined Sc2+xNi1−x (x = 0.15) as a highly disordered Ti2Ni-type related to the type of disorder known for Dy5Pd2. Whereas the isothermal ternary sections for Sc-{Mn,Fe}-Ga are characterized by one ternary compound, Sc54{Mn,Fe,Ga}17 with the orthorhombic Hf54Os17-type (space group Immm), the systems with Co, Ni contain a so-called kappa (κ) phase, Sc10(Co1−xGax)3Co and Sc10(Ni1−xGax)3Ni. Both phases are occupation variants of the κ-Hf9Mo4B-type (space group P63/mmc). Besides that, the Sc-Co-Ga system at 850 °C comprises also a hitherto unknown representative of the Hf54Os17-type as well as two further ternary solid solution phases: Sc15−x−y□yCo3+x−zGa1+z (unique structure type, space group Immm; x = 1.60, y = 0.58; 0 ≤z ≤ 0.82) and Sc50+xCo13−zGa3+z (ε-Mg26−xAg7+x type, space group Fm-3; x = 0.84; 0 ≤z ≤ 1). For all compounds the crystal structures were derived from X-ray single crystal studies, some even at several compositions. The characteristic features of all structure types are non-regular Sc-icosahedra centered by (T,Ga) atoms. Whereas κ-Sc10(T1−xGax)3T phases (T = Co,Ni) form a typical network of corner-connected empty octahedra Sc6, which encompass Sc-centered icosahedra Sc6Ga6 and T-centered trigonal prisms T[Sc6], the Sc54(T,Ga)17 phases are made of (T,Ga)-centered defect icosahedron-clusters (T = Mn,Fe,Co). The ternary compounds exhibit remarkable large homogeneity regions mainly at practically constant Sc-contents i.e. deviating only slightly from T/Ga exchange pointing towards Sc-richer limits: at 850 °C from 12 to 14.6 at% Ga for the Co-κ-phase and from 2.1 to 15.4 at% Ga for the Ni-κ-phase; from about 6–12 at% for the phases Sc54{Mn,Co,Ga}17, but from 2.8 to 12.3 at% Ga in the case of Sc54{Fe,Ga}17. It should be mentioned that Sc54{Fe,Ga}17 as well as κ-Sc10(Ni,Ga)4 approach the corresponding binary system almost joining with binary cubic Sc29Fe6 or at least indicating a vanishing instability for the binary hypothetical kappa phase “Sc10Ni4”. Physical properties have been studied for the compounds richest in Sc: specific heat and electrical conductivity measurements infer metallic behavior for the Sc54(T,Ga)17 phases. Whereas Sc54Fe9.4Ga7.6 and Sc54Co7.3Ga9.7 are almost temperature independent paramagnets, Sc54Mn8.5Ga8.5 exhibits an approximate Curie-Weiss behavior: χ0 = 1.03 × 10−3 emu/mol; Θp = 15.8 K, µeff = 2.23 µB/Mn. At low temperatures it reveals a weakly interacting spin glass system with a spin-freezing anomaly at around 8 K. Hardness and elastic moduli are in the range of typically polar intermetallics. Chemical bonding and charge transfer is elucidated from DFT calculations and eDOS for the kappa phases, Sc10(Co1−xGax)3Co (x = 0, 0.67, 1), Sc10(Ni1−xGax)3Ni (x = 0.67), as well as for the compounds with selected composition Sc54{Mn,Fe,Co}10Ga7 and showed high electron localization inside the empty Sc6 octahedra for all studied compounds and related kappa phases, which may attract small and highly electronegative elements.

Organisation(s)

Department of Materials Chemistry, Department of Mineralogy and Crystallography

External organisation(s)

Universität Wien, Technische Universität Wien, Czech Academy of Sciences, Technische Universität Dresden

Journal

Journal of Alloys and Compounds

Volume

919

No. of pages

27

ISSN

0925-8388

DOI

https://doi.org/10.1016/j.jallcom.2022.165540

Publication date

05-2022

Peer reviewed

Yes

Austrian Fields of Science 2012

105116 Mineralogy, 104011 Materials chemistry, 105113 Crystallography

Keywords

ASJC Scopus subject areas

Mechanics of Materials, Mechanical Engineering, Metals and Alloys, Materials Chemistry

Portal url

https://ucris.univie.ac.at/portal/en/publications/phase-relations-structure-properties-and-dft-study-of-compounds-in-the-scrich-part-of-the-systems-scmnfeconiga(b25705d2-dfcf-497b-a8e2-c0d926936513).html