Phase Equilibria in the Ternary Al–Ti–Pt System. I. Solidus Surface of the Al–Ti–Pt System in the Range 0–50 at.% Pt

被引:0
|
作者
O. V. Zaikina
V. G. Khoruzhaya
K. Ye. Korniyenko
K. A. Meleshevich
D. V. Pavlyuchkov
T. Ya. Velikanova
机构
[1] National Academy of Sciences of Ukraine,Frantsevich Institute for Problems of Materials Science
来源
Powder Metallurgy and Metal Ceramics | 2019年 / 57卷
关键词
phase equilibria; solidus surface; isothermal plane; ternary compound; structural type; solid solution;
D O I
暂无
中图分类号
学科分类号
摘要
The nature of phase equilibria has been examined for the first time in the Al–Ti–Pt system in the range 0–50 at.% Pt at subsolidus temperatures. Besides the τ1, τ2, and τ3 ternary compounds with AuCu3, Th6Mn23+1, and MgZn2 lattices known from the literature, eight more compounds form in the system at subsolidus temperatures. The structural type is known for three of these compounds. They are τ4 (ZrBeSi), τ5 (CrFe), and τ6 (defective structure of Au4Al type). There are 31 isothermal planes on the solidus surface. All planes are formed with participation of ternary compounds and solid solutions based on binary compounds present in the boundary systems. The highest temperature in this composition range corresponds to the congruent melting of the TiPt phase (1830°C) and the lowest to eutectic l ⇄ <Al> + <Al21Pt5> in the binary Al–Pt system (655°C).
引用
收藏
页码:587 / 595
页数:8
相关论文
共 50 条
  • [31] A study of phase equilibria in the Al-Pt-Rh alloy system
    Grushko, B.
    JOURNAL OF ALLOYS AND COMPOUNDS, 2015, 636 : 329 - 334
  • [32] PHASE EQUILIBRIA IN ALLOYS OF THE Ti-Al-Zr-W SYSTEM.
    Volkova, M.A.
    Nartova, T.T.
    Meleshko, E.V.
    Russian metallurgy. Metally, 1986, (02) : 211 - 214
  • [33] Laves phases in the ternary systems Ti-{Pd, Pt}-Al
    Yan, Xinlin
    Grytsiv, A.
    Rogl, P.
    Schmidt, H.
    Giester, G.
    Saccone, A.
    Chen, Xing-Qiu
    INTERMETALLICS, 2009, 17 (05) : 336 - 342
  • [34] Phase equilibria in the Co-Ti portion of the Co-Al-Ti ternary system
    Ishikawa, K
    Himuro, Y
    Ohnuma, I
    Kainuma, R
    Aoki, K
    Ishida, K
    JOURNAL OF PHASE EQUILIBRIA, 2001, 22 (03): : 219 - 226
  • [35] Phase equilibria in the Al – Cr – Ti system
    Yu. I. Rusnyak
    E. F. Kazakova
    T. P. Loboda
    Metal Science and Heat Treatment, 2009, 51 : 433 - 435
  • [36] The ternary Al-Mo-Ti system revisited: Phase equilibria of Al63(Mo,Ti)37
    Kriegel, Mario J.
    Walnsch, Alexander
    Distl, Benedikt
    Fabrichnaya, Olga
    Freudenberger, Jens
    Leineweber, Andreas
    JOURNAL OF ALLOYS AND COMPOUNDS, 2019, 811
  • [37] Revised phase diagram for the Pt-Ti system from 30 to 60 at.% platinum
    Biggs, T
    Cornish, LA
    Witcomb, MJ
    Cortie, MB
    JOURNAL OF ALLOYS AND COMPOUNDS, 2004, 375 (1-2) : 120 - 127
  • [38] Phase equilibria in the ternary Ga-Pt-Sb system
    Richter, KW
    Ipser, H
    JOURNAL OF ALLOYS AND COMPOUNDS, 1998, 281 (02) : 241 - 248
  • [39] Phase Equilibria of the Al-Ti-Er Ternary System at 500 °C
    Liang, J.
    Huang, J.
    Zhou, H.
    Zhuang, Y.
    Yan, J.
    International Journal of Materials Research, 2000, 91 (08) : 669 - 671
  • [40] Phase equilibria of the Al-Ti-Er ternary system at 500°C
    Liang, Jianlie
    Huang, Jinli
    Zhou, Huaiying
    Zhuang, Yinghong
    Yan, Jialin
    Zeitschrift fuer Metallkunde/Materials Research and Advanced Techniques, 2000, 91 (08): : 669 - 671
12345