Katrin Thieme scite author profile

The addition of small amounts of niobium or tantalum oxide to lithium disilicate glass provokes a drastic decrease of the steady-state nucleation rates and the crystal growth velocities. The viscosity of the residual glassy matrix is considered as a function of the crystallization degree in the course of a non-isothermal crystallization. For simplification, a homogeneous distribution of the added oxides in the glass matrix is assumed. While the viscosity initially decreases, it significantly increases again for higher crystallization degrees hindering crystal growth. However, it was shown that the additives are enriched at the crystal interface. Several possible reasons for the inhibition of nucleation and growth kinetics such as viscosity, interfacial energy crystal/glassy phase, thermodynamic driving force or impingement rate are discussed. Since the crystallization front is blocked by the additives the impingement rate is decreased with increasing additive concentration. Since small concentrations of Nb2O5 and Ta2O5 have a drastic effect on the nucleation, these components should be enriched at the interface crystal/glass. This will only take place, if it leads to a decrease in the interfacial energy. Since this effect alone should result in an increase of the nucleation rate, it must be overcompensated by kinetic effects.

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Nucleation inhibitors—The effect of small concentrations of Al2O3, La2O3 or TiO2 on nucleation and crystallization of lithium disilicate

Thieme

Rüssel

2014

Journal of the European Ceramic Society

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Nucleation and growth kinetics and phase analysis in zirconia-containing lithium disilicate glass

Thieme

Rüssel

2014

J Mater Sci

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The effect of niobium- and tantalum oxide on nucleation and growth kinetics in lithium disilicate glasses

Thieme

Rüssel

2015

Materials Chemistry and Physics

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Katrin Thieme

Fresnoite glass-ceramics – A review

The mechanism of deceleration of nucleation and crystal growth by the small addition of transition metals to lithium disilicate glasses

Nucleation inhibitors—The effect of small concentrations of Al2O3, La2O3 or TiO2 on nucleation and crystallization of lithium disilicate

Nucleation and growth kinetics and phase analysis in zirconia-containing lithium disilicate glass

The effect of niobium- and tantalum oxide on nucleation and growth kinetics in lithium disilicate glasses

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