Influence of the ageing conditions and the initial microstructure on the precipitation of α phase in Ti-17 alloy

The precipitation of α phase during ageing was investigated in the near-β titanium alloy Ti-17 considering either a fully βmetastable initial microstructure or a 35% αprimary + 65% βmetastable initial microstructure. In-situ electrical resistivity and high energy X-ray diffraction measurements revea...

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Veröffentlicht in:	Journal of alloys and compounds 2018-09, Vol.763, p.446-458
Hauptverfasser:	Maury, Nicolas, Denand, Benoît, Dehmas, Moukrane, Archambeau-Mirguet, Claude, Delfosse, Jérôme, Aeby-Gautier, Elisabeth
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Sprache:	eng
Schlagworte:	Chemical and Process Engineering Crystal structure Engineering Sciences Materials Metals and alloys Microstructure Phase transitions X-ray diffraction
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container_title	Journal of alloys and compounds
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creator	Maury, Nicolas Denand, Benoît Dehmas, Moukrane Archambeau-Mirguet, Claude Delfosse, Jérôme Aeby-Gautier, Elisabeth
description	The precipitation of α phase during ageing was investigated in the near-β titanium alloy Ti-17 considering either a fully βmetastable initial microstructure or a 35% αprimary + 65% βmetastable initial microstructure. In-situ electrical resistivity and high energy X-ray diffraction measurements revealed the influence of the initial microstructure, with different α morphologies (size and distribution of αprimary), as well as the heating rate on the precipitation sequences and kinetics following the decomposition of the β-metastable phase. Various amounts of metastable phases (ωisothermal and α″isothermal) precipitate in temperature ranges that increase with the heating rate. From temperatures about 500 °C, the orthorhombic α″isothermal structure evolved towards the hexagonal close-packed α as temperature increased. SEM microstructure characterisations showed that slow heating rates promoted a fine and dense α precipitate distribution through the formation of ωisothermal and/or α″isothermal, leading to higher hardness values. A higher heating rate restricted the precipitation of α″isothermal and shifted to the one of α at a higher temperature, leading to coarser precipitates. Furthermore, precipitation kinetics of α″isothermal/α were quicker considering an initial intragranular α precipitation as compared to α colonies. •The α size and spatial distribution influence precipitation kinetics during ageing.•Precipitation sequences and their kinetics are affected by the heating rate.•Lower heating rates promote a refined and homogeneous distribution of α plates.•The crystal structure of α″isothermal tends toward the one of α.
doi_str_mv	10.1016/j.jallcom.2018.04.302
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title	Influence of the ageing conditions and the initial microstructure on the precipitation of α phase in Ti-17 alloy
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