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Phase Transformations and Mechanical Properties of Two-Component Titanium Alloys after Heat Treatment in the Two-Phase Region ($\upalpha$ $\mathplus$ Intermetallic Compound) and High-Pressure Torsionстатья
Дата последнего поиска статьи во внешних источниках: 1 апреля 2022 г.
- Авторы: Gornakova A.S., Straumal B.B., Golovin Yu I., Afonikova N.S., Pirozhkova T.S., Tyurin A.I.
- Журнал: Journal of Surface Investigation: X-ray, Synchrotron and Neutron Techniques
- Том: 15
- Номер: 6
- Год издания: 2021
- Издательство: Pleiades Publishing, Ltd
- Местоположение издательства: Road Town, United Kingdom
- Первая страница: 1154
- Последняя страница: 1158
- DOI: 10.1134/s1027451021060082
- Аннотация: In this paper, we measure the nanohardness (H) and Young’s modulus (E) of three alloys: Ti–2.5 wt % Ni, Ti–2 wt % Cr, and Ti–2.2 wt % Fe preliminarily annealed in the two-phase region of the phase diagram (αTi + intermetallic compound) and then subjected to high-pressure torsion. The titanium alloy with the nickel addition showed the highest H and E values, they vary uniformly from the center to the edge of the sample, and the alloy after high-pressure torsion contains two phases: α and ω. The nanohardness of the alloy Ti–2.5 wt % Ni along the sample radius over the surface changes insignificantly: from minimal 4.8 to maximal 5.2 GPa, as does Young’s modulus (from 121 to 155 GPa). The maxima of the H and E values fall in the middle of the sample radius. The alloy Ti–2.2 wt % Fe behaves differently: the presence of four phases α, β, ω, and TiFe leads to a strong scatter in the measured H and E values: from 4.4 to 2.0 GPa and from 131 to 12 GPa, respectively. Processing the P–h diagrams allows the nanohardness of the material to be related to its creep behaviour.
- Добавил в систему: Головин Юрий Иванович