Objectives: To optimise the nucleation mechanism in leucite glass-ceramics to allow more efficacious glass-ceramic manufacture and improvements in microstructure and mechanical reliability.
Materials and Methods:An alumino-silicate glass was designed and synthesised using melt quench methods. The glass was crushed and milled using various milling times (48-93h) and spray drying. Nucleation and growth heat treatment schedules were applied to synthesize glass-ceramics. Glass/ glass-ceramic powders and frit specimens were characterised using differential scanning calorimetry (DSC), transmission electron microscopy (TEM), energy-dispersive X-ray spectrometry (EDX), magic angle spinning nuclear magnetic resonance Spectroscopy (MAS-NMR) and X-Ray diffraction analyses (XRD). Glass-ceramic specimens were tested using the biaxial flexural strength test (BFS).
Results: Application of defined nucleation heat treatments resulted in the synthesis of Na/Ca titanates. NMR indicated changes to the 23 Na glass spectra in the nucleated glass and TEM/EDX the presence of Na/Ca/Ti domains (<200nm) within the leucite crystals and associated with the nucleation of the leucite phase. XRD confirmed the presence of a bulk leucite phase in the glass-ceramics. SEM/TEM confirmed the crystallisation of the leucite phase (65.5-69.3%) in a thermally matched glass, in conjunction with the nano Na/Ca titanate phase. The leucite glass-ceramics resulted in a high BFS (255-268 MPa), with reduction in powder milling time prior to heat treatments having no significant effect on flexural strength and reliability (p>0.05).Significance: Na/Ca titanates were synthesised in leucite glass-ceramics for the first time and associated with its nucleation and efficacious growth. This nucleation optimisation provides opportunities for more efficient manufacturing and microstructural/ mechanical reliability improvements. Improved synthesis of high strength/reliable leucite glass-ceramics is useful for construction of aesthetic minimally invasive restorations.
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