Comparative study of the crystallization behavior within the Na2O–Y2O3–ZrO2–SiO2 system during heating and cooling

Abstract

Phase formation in glasses from the system Na₂O–Y₂O₃–SiO₂ with different concentrations of ZrO₂ were studied concerning phase formation and crystallization behavior. The compositions were near the stoichiometry of NaYSi₂O₆. A comparison of microstructure and phase content after instant crystallization during slow cooling and after subsequent thermal annealing is given. The phases as well as the microstructure differ depending on thermal history. During cooling, predominantly a phase with apatite structure (NaY₉Si₆O₂₆) precipitates and the residual glassy phase is enriched in ZrO₂. The composition of the glassy phase was quantified and an enrichment of ZrO₂ of slightly above five mol% was measured. ZrO₂ concentrations >5 mol% lead to the precipitation of Y₂O₃ enriched ZrO₂. A fast cooling of the melt results in glass formation without instant crystallization. Subsequent heating at temperatures below 1000 °C leads to the precipitation of an unknown phase whereas at higher temperatures NaYSi₂O₆ crystallizes. Two-step heating in terms of nucleation and crystal growth were performed and small ZrO₂-particles have been formed homogenously within the sample volume. Those particles do not trigger volume crystallization within the glasses and surface crystallization is the predominant crystallization mechanism.