nfluence of Deformation Processing Modes on the Structure and Mechanical Properties of a High-Temperature Titanium Alloy of the Ti–Al–Zr–Si–Mo–Nb–Sn System
S. V. Akhonin$^{1}$, A. Yu. Severyn$^{1}$, V. O. Berezos$^{1}$, V. A. Kostin$^{1}$, M. M. Kuzmenko$^{2}$, O. M. Shevchenko$^{2}$, I. F. Kravchenko$^{3}$
$^{1}$Институт электросварки им. Е. О. Патона НАН Украины, ул. Казимира Малевича, 11, 03150 Киев, Украина
$^{2}$Институт проблем материаловедения им. И. Н. Францевича НАН Украины, ул. Омельяна Прицака, 3, 03142 Киев, Украина
$^{3}$Government Enterprise ‘Ivchenko-Progress’, 2 Ivanova Str., UA-69068 Zaporizhzhia, Ukraine
Получена: 09.04.2024; окончательный вариант - 26.06.2024. Скачать: PDF
To determine the kinetics of phase transformations, a calculated CCT-diagram for a titanium alloy of the Ti–Al–Zr–Si–Mo–Nb–Sn alloying system is obtained. The study of the structure and mechanical properties of the heat-resistant alloy of the Ti–Al–Zr–Si–Mo–Nb–Sn alloying system, which are obtained at different temperatures after thermodeformation treatment, is carried out. As established, the deformation treatment carried out in the upper part of the area of the existence of ($\alpha$+$\beta$)-phases made it possible to increase the strength of the material at the room and operating temperatures and, that is especially important, to increase significantly the plasticity of the material, allowing only a slight decrease on average in its yield strength during short-term tests. As also found, a greater degree of deformation destroys hard silicide layers, distributes silicides more uniformly, increases both the strength and plasticity of the alloy, and slightly reduces the heat-resistant properties at 600°C.
Ключевые слова: heat-resistant titanium alloy, phase transformation, deformation treatment, structure, phase, mechanical properties.
URL: https://mfint.imp.kiev.ua/ru/abstract/v46/i07/0705.html
PACS: 61.72.Ff, 62.20.-x, 81.20.Hy, 81.30.Bx, 81.40.Ef, 81.40.Jj, 81.40.Vw