Structure-Phase Status of the High-Entropy AlNiNbTiCo Alloy

被引:0
|
作者
Y. A. Abzaev
Ž. Medić
M. Koptsev
R. S. Laptev
A. M. Lider
A. D. Lomygin
A. A. Klopotov
机构
[1] Tomsk State University of Architecture and Building,
[2] Tomsk Polytechnic University,undefined
[3] Department of Experimental Physics,undefined
[4] Institute of Physics in Belgrade,undefined
来源
Russian Physics Journal | 2024年 / 67卷
关键词
AlNiNbTiCo alloy; high-entropy alloys; X-ray diffraction techniques; mechanical alloying;
D O I
暂无
中图分类号
学科分类号
摘要
Results of investigations of the structural state of the AlNiNbTiCo high-entropy alloy (HEA) obtained by mechanical synthesis of pure Al, Ti, Ni, Co, and Nb metals for 30, 40, and 50 min are presented. It is shown that the AlNiNbTiCo HEA belongs to stable structures near the melting temperature. By the method of inverse convex hulls (InveseHubWeb), the temperature interval of structure stability equal to ∆T = 1578–2935 K has been found, and the lattice is created by predicting the structures in the USPEX code. The amorphous AlNiNbTiCo HEA structural state is determined by the simple AlNiNbTiCo-3 cubic lattice. It is shown that the AlNiNbTiCo-3 lattice dominates in the AlNiNbTiCo HEA synthesized for 30, 40, and 50 min.
引用
收藏
页码:147 / 155
页数:8
相关论文
共 50 条
  • [1] Structure-Phase Status of the High-Entropy AlNiNbTiCo Alloy
    Abzaev, Y. A.
    Medic, Z.
    Koptsev, M.
    Laptev, R. S.
    Lider, A. M.
    Lomygin, A. D.
    Klopotov, A. A.
    RUSSIAN PHYSICS JOURNAL, 2024, 67 (02) : 147 - 155
  • [2] Effect of nickel on the structure and phase composition of the VCrMnFeCoNix high-entropy alloy
    M. V. Karpets’
    O. M. Myslyvchenko
    O. S. Makarenko
    V. F. Gorban’
    M. O. Krapivka
    A. I. Degula
    Journal of Superhard Materials, 2015, 37 : 182 - 188
  • [3] Structure, Phase Composition and Defect Substructure of High-Entropy Alloy Ribbon
    Yu. F. Ivanov
    V. E. Gromov
    I. Yu. Litovchenko
    E. A. Kolubaev
    A. I. Potekaev
    A. P. Semin
    S. V. Borovskii
    Russian Physics Journal, 2024, 67 : 34 - 40
  • [4] Structure, Phase Composition and Defect Substructure of High-Entropy Alloy Ribbon
    Ivanov, Yu. F.
    Gromov, V. E.
    Litovchenko, I. Yu.
    Kolubaev, E. A.
    Potekaev, A. I.
    Semin, A. P.
    Borovskii, S. V.
    RUSSIAN PHYSICS JOURNAL, 2024, 67 (01) : 34 - 40
  • [5] High-entropy alloy superconductors: Status, opportunities, and challenges
    Sun, Liling
    Cava, R. J.
    PHYSICAL REVIEW MATERIALS, 2019, 3 (09)
  • [6] Structure and magnetism of AlCoCrCuFeNi high-entropy alloy
    Oboz, M.
    Zajdel, P.
    Zubko, M.
    Swiec, P.
    Szubka, M.
    Kadziolka-Gawel, M.
    Maximenko, A.
    Trump, B. A.
    Yakovenko, A. A.
    JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS, 2024, 589
  • [7] Phase Structure and Microstructure of CoCrFeNiMo High-entropy Alloy Prepared by Plasma Cladding
    Wang H.
    Wang X.-Y.
    Peng Y.
    Zhao L.
    Wang Z.-H.
    He D.-Y.
    Surface Technology, 2022, 51 (12): : 116 - 121and130
  • [8] Effect of nickel on the structure and phase composition of the VCrMnFeCoNi x high-entropy alloy
    Karpets', M. V.
    Myslyvchenko, O. M.
    Makarenko, O. S.
    Gorban', V. F.
    Krapivka, M. O.
    Degula, A. I.
    JOURNAL OF SUPERHARD MATERIALS, 2015, 37 (03) : 182 - 188
  • [9] Phase dissolution strengthens and ductilizes a high-entropy alloy
    Wang, Ruixin
    Li, Li
    Tang, Yu
    Lei, Zhifeng
    Li, Jia
    Ma, Chao
    Li, Shun
    Ye, Yicong
    Zhu, Li'an
    Ai, Yuanlin
    Fang, Qihong
    Bai, Shuxin
    Lu, Zhaoping
    SCIENCE CHINA-MATERIALS, 2023, 66 (03) : 1205 - 1214
  • [10] Phase separation in equiatomic AlCoCrFeNi high-entropy alloy
    Manzoni, A.
    Daoud, H.
    Voelkl, R.
    Glatzel, U.
    Wanderka, N.
    ULTRAMICROSCOPY, 2013, 132 : 212 - 215
12345