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Non-stoichiometric crystal nucleation in a spodumene glass containing TiO2 as seed former: Effects on the viscosity of the residual melt

•TiO2-doped spodumene glass is highly unstable against reheating.•TiO2-driven nucleation begins as soon as the glass transition is approached.•Raman spectroscopy can monitor the modification of the starting glass upon heating.•Inattentive near-Tg viscosity measurements can lead to inaccuracies by 2...

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Published in:Journal of non-crystalline solids 2023-11, Vol.619, p.122563, Article 122563
Main Authors: Zandonà, Alessio, Scarani, Alex, Löschmann, Jessica, Cicconi, Maria Rita, Di Fiore, Fabrizio, de Ligny, Dominique, Deubener, Joachim, Vona, Alessandro, Allix, Mathieu, Di Genova, Danilo
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Language:English
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Summary:•TiO2-doped spodumene glass is highly unstable against reheating.•TiO2-driven nucleation begins as soon as the glass transition is approached.•Raman spectroscopy can monitor the modification of the starting glass upon heating.•Inattentive near-Tg viscosity measurements can lead to inaccuracies by 2 log units. A spodumene glass (LiAlSi2O6), doped with 4 mol% TiO2 as a nucleating agent, was synthesized by containerless melting. Its accurate viscosity characterization by micropenetration viscometry or calorimetry is shown to be very challenging in the vicinity of the glass transition, due to the unpreventable occurrence of thermally activated non-stoichiometric crystal nucleation, closely overlapping the relaxation into the liquid state. TiO2 crystal nucleation brings about a compositional modification of the residual melt, with an associated increase in measured viscosity by up to 2 log units. A careful experimental approach and a profound understanding of seed formation are essential to circumvent or at least minimize such inaccuracies, getting as close as possible to the viscosity of the parent homogeneous melt.
ISSN:0022-3093
1873-4812
DOI:10.1016/j.jnoncrysol.2023.122563