Grain shape and size and structural and phase conditions modified by aluminum ion implantation in UFG titanium A. Nikonenko, N. Popova, E. Nikonenko [et.al.]
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ArticleSubject(s): титановые сплавы | фазовая структура | алюминий | структурно-фазовое состояние | ионная имплантацияGenre/Form: статьи в журналах Online resources: Click here to access online
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AIP Conference Proceedings Vol. 1772. P. 030007-1-030007-7Abstract: The paper presents the transmission electron microscopy investigations of the granular state and the structural and phase conditions of commercially pure ultra-fine grain (UFG) titanium VT1-0 alloyed with aluminum ions. The UFG-titanium is obtained by the multiple uniaxial compaction with intermediate annealing. The ion implantation is carried out on Mevva-V.Ru ion source at ion-implantation dosages of 1·1017, 5·1017 and 1·1018 ion/cm2. The functions are constructed for the grain size distribution in longitudinal and cross sections; the average grain size and the grain anisotropy factor are determined in this paper. It is shown that the grain shape and size of titanium specimens are modified due to the ion implantation. With the increase of the ion-implantation dosage the anisotropy factor decreases three times. At 1·1018 ion/cm2 ion-implantation dosage the longitudinal grain size comes to 0.7 μm. The phase composition of the alloy is detected after the ion implantation and its modification induced by the implantation dosage. The quantitative characteristics and locations of secondary β-Ti, TiAl3, Ti3Al, TiC and TiO2 phases are ascertained during the investigations. It is shown that TiAl3 and Ti3Al are ordered phases formed during the ion implantation on α-Ti grain boundaries. The volume ratios of these phases are detected and determined by the ion-implantation dosage. The volume ratios of α-Ti and secondary TiC and TiO2 phases do not depend on the implantation dosage and range between 0.3-0.9 vol.%.
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The paper presents the transmission electron microscopy investigations of the granular state and the structural and phase conditions of commercially pure ultra-fine grain (UFG) titanium VT1-0 alloyed with aluminum ions. The UFG-titanium is obtained by the multiple uniaxial compaction with intermediate annealing. The ion implantation is carried out on Mevva-V.Ru ion source at ion-implantation dosages of 1·1017, 5·1017 and 1·1018 ion/cm2. The functions are constructed for the grain size distribution in longitudinal and cross sections; the average grain size and the grain anisotropy factor are determined in this paper. It is shown that the grain shape and size of titanium specimens are modified due to the ion implantation. With the increase of the ion-implantation dosage the anisotropy factor decreases three times. At 1·1018 ion/cm2 ion-implantation dosage the longitudinal grain size comes to 0.7 μm. The phase composition of the alloy is detected after the ion implantation and its modification induced by the implantation dosage. The quantitative characteristics and locations of secondary β-Ti, TiAl3, Ti3Al, TiC and TiO2 phases are ascertained during the investigations. It is shown that TiAl3 and Ti3Al are ordered phases formed during the ion implantation on α-Ti grain boundaries. The volume ratios of these phases are detected and determined by the ion-implantation dosage. The volume ratios of α-Ti and secondary TiC and TiO2 phases do not depend on the implantation dosage and range between 0.3-0.9 vol.%.
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