S. I. Prokofiev scite author profile

S. I. Prokofiev

4Publications

27Citation Statements Received

44Citation Statements Given

How they've been cited

128

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Affiliations

Institute of Solid State Physics, Institute of Solid State Physics

Publications

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Coarsening of (αTi) + (βTi) Microstructure in the Ti–Al–V Alloy at Constant Temperature

2018

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The microstructure evolution of the Ti-6 wt% Al-4 wt% V alloy with increasing annealing time t at constant temperature T ¼ 800 C is studied. This temperature is in the two-phase region (αTi) þ (βTi) of Ti-Al-V ternary phase diagram. The annealing time t varies from 7 to 840 h. The microstructure of the annealed samples is investigated using optical and scanning electron microscopy. The average grain size of (αTi) and (βTi) phases grows approximately proportional to t 1/4 . This indicates that both processes are controlled by the diffusion along grain boundaries (αTi)/(αTi) and (βTi)/(βTi) and/or interphase boundaries (αTi)/(βTi).

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

Горнакова

Prokofiev

Straumal

et al. 2016

Russ. J. Non-ferrous Metals

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Izvestiya vuzov. Tsvetnaya metallurgiya • 5 • 2016 69 Введение Образование прослоек второй фазы на границах зерен (ГЗ) сильно влияет на механические свойства многофазных материалов, в частности сплавов на основе титана, которые нередко подвер-УДК: 538.9 Институт физики твердого тела (ИФТТ) РАН, г. Черноголовка Национальный исследовательский технологический университет «МИСиС», г. Москва Статья поступила в редакцию 29.01.15 г., доработана 18.10.15 г., подписана в печать 22.10.15 г. Исследовалось влияние температуры на образование зернограничной прослойки (αTi) в сплавах Ti-2мас.%Co и Ti-4мас.%Co в двухфазной области (αTi) + (βTi) фазовой диаграммы Ti-Co в интервале температур 690-810 °С. Изучена кинетика роста толщины (∆) зернограничной прослойки фазы (αTi) в сплаве Ti-2мас.%Co при температуре 750 °С. Показана ее зависимость от времени отжига как ∆ ~ t 1/3 . Анализ результатов экспериментальных наблюдений позволяет предположить, что увеличение ∆ является проявлением процесса коалесценции (αTi), который контролируется объемной диффузией. Ключевые слова: титановые сплавы, кобальт, распад пересыщенного твердого раствора, выделение второй фазы, границы зерен, кинетика, диффузия, коалесценция. Горнакова А.С. -канд. физ.-мат. наук, ст. науч. сотр. лаборатории поверхностей раздела в металлах ИФТТ РАН (142432, Московская обл., г. Черноголовка, ул. Акад. Осипьяна, 2).The paper studies the effect of temperature on the formation of (αTi) grain boundary layer in Ti-2wt.%Co and Ti-4wt.%Co alloys in the (αTi) + (βTi) two-phase region of the Ti-Co phase diagram within the temperature range of 690-810 °C. The paper studies kinetics of thickness growth (∆) of the (αTi) phase grain boundary layer in Ti-2wt.%Co alloy at a temperature of 750 °C. It demonstrates dependence of the thickness of grain boundary layer on the annealing time as ∆ ~ t 1/3 . Analysis of experimental results suggests that increase in ∆ is a manifestation of the (αTi) coalescence process controlled by volume diffusion. Citation: Gornakova A.S., Prokofjev S.I., Straumal B.B., Kolesnikova K.I. Rost zernogranichnoi prosloiki (αTi) v splavakh Ti-Co. Izv. vuzov. Tsvet. metallurgiya.

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Formation regularities of grain-boundary interlayers of the α-Ti phase in binary titanium alloys

Горнакова

Prokofiev

Kolesnikova

et al. 2016

Russ. J. Non-ferrous Metals

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Faceting of a moving grain boundary and its effect on the kinetic properties of grain boundaries

Sursaeva

Prokofiev

2017

Bull. Russ. Acad. Sci. Phys.

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S. I. Prokofiev

Coarsening of (αTi) + (βTi) Microstructure in the Ti–Al–V Alloy at Constant Temperature

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

Formation regularities of grain-boundary interlayers of the α-Ti phase in binary titanium alloys

Faceting of a moving grain boundary and its effect on the kinetic properties of grain boundaries

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