Growth of (αTi) grain-boundary layers in Ti–Co alloys

被引:0
作者
A. S. Gornakova
S. I. Prokofiev
B. B. Straumal
K. I. Kolesnikova
机构
[1] Russian Academy of Sciences,Institute of Solid State Physics
[2] National University of Science and Technology MISiS,undefined
来源
Russian Journal of Non-Ferrous Metals | 2016年 / 57卷
关键词
titanium alloys; cobalt; decomposition of supersaturated solid solution; second phase precipitation; grain boundaries; kinetics; diffusion; coalescence;
D O I
暂无
中图分类号
学科分类号
摘要
The influence of temperature on the formation of the (αTi) grain-boundary interlayer in alloys Ti–2 wt % Co and Ti–4 wt % Co in the two-phase region (αTi) + (βTi) of the Ti–Co phase diagram is studied in a temperature range of 690–810°C. The growth kinetics of the thickness (Δ) of the grain-boundary interlayer of the (αTi) phase in the Ti–2 wt % Co alloy is investigated at 750°C. Δ depends on the annealing time as ~ t1/3. The analysis of the results of experimental observations makes it possible to assume that an increase in Δ is the manifestation of coalescence of (αTi), which is controlled by the bulk diffusion.
引用
收藏
页码:703 / 709
页数:6
相关论文
共 56 条
  • [1] Kolachev B.A.(2003)Correlation between diagrams of isothermal and anisothermal transformations and phase composition diagram of hardened titanium alloys Metal Sci. Heat Treat. 45 119-126
  • [2] Lyasotskaya V.S.(2003)Effect of the structure on the cutability of titanium alloys Metal Sci. Heat Treat. 45 134-139
  • [3] Egorova Yu.B.(1983)Structure and mechanical properties of annealed titanium alloys Metal Sci. Heat Treat. 25 626-631
  • [4] Il’in A.A.(1988)Interaction of short cracks with the structure of metals Sov. Mater. Sci. 24 247-251
  • [5] Kolachev B.A.(1982)Effect of particles of the insoluble phase al9feni on the kinetics of fatigue crack propagation in alloy AK4-1 Metal Sci. Heat Treat. 24 191-194
  • [6] Nosov V.K.(2010)Wetting of grain boundaries in Al by the solid Al3Mg2 phase J. Mater. Sci. 45 2057-2061
  • [7] Mamonov A.M.(1999)Tie lines of the grain boundary wetting phase transition in the Zn-rich part of the Zn–Sn phase diagram Mater. Sci. Forum 294 411-414
  • [8] Kolachev B.A.(2012)Grain boundary wetting by a second solid phase in the Zr–Nb alloys J. Mater. Eng. Perform. 21 721-724
  • [9] Veitsman M.G.(2008)Continuous and discontinuous grain boundary wetting in the Zn–Al system Phys. Rev. B 78 054202-85
  • [10] Gus’kova L.N.(1982)Diagrams of binary titanium alloys Bull. Alloy Phase Diagrams 3 74-889
123456