Crystallization of the glasses within the SiO2-Li2O-TiO2 system

Glasses from the ternary system SiO2-Li2O-TiO2 with increasing titania content replacing silica were prepared by melting-annealing technique. Structural FTIR, thermal and differential thermal analysis (DTA) properties of the glasses were measured and evaluated. X-ray diffraction and scanning electro...

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Published in:Materials chemistry and physics 2022-01, Vol.275, p.125216, Article 125216
Main Authors: ElBatal, H.A., Azooz, M.A., El-Bassyouni, G.T., ElBatal, F.H., Hamzawy, E.M.
Format: Article
Language:English
Subjects:
Crystal structure
Crystallinity
Crystallization
CTE
Differential thermal analysis
Diffraction patterns
Glass ceramics
Glass-ceramic
LiS
LiS2
Lithium
Lithium oxides
Mechanical properties
Microhardness
Phases
Quartz
Silicon dioxide
SiO2-Li2O-TiO2 system
Ternary systems
Thermal expansion
Thermodynamic properties
Titanium dioxide
Trisilicate
X-ray diffraction
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description Glasses from the ternary system SiO2-Li2O-TiO2 with increasing titania content replacing silica were prepared by melting-annealing technique. Structural FTIR, thermal and differential thermal analysis (DTA) properties of the glasses were measured and evaluated. X-ray diffraction and scanning electron microscope investigations were done to identify the crystalline phases formed together with revealing their morphological features. The coefficient of thermal expansion (CTE) data of glass-ceramic samples are identified to be between 80.83 × 10−7 °C−1 and 120.04 × 10−7 °C−1 (23–500 °C). The increase of the CTE is assumed to be concomitant with the increase of the crystallization of lithium metasilicate (Li2SiO3) phase or quartz (SiO2). Titania is assumed to behave primarily partly as a modifier oxide and at high titania content; it is assumed to act as former (TiO4) groups. X-ray diffraction patterns indicate that the pure lithium silicate glass produces lithium disilicate (LS2) and quartz (SiO2) as crystalline phases and with increasing TiO2, first it acts as a nucleating agent initiating the formation of different crystalline silica phases beside (LS2) then titania is separated at 15 %TiO2 and 30%TiO2 as lithium titanate. The microhardness and densities values are calculated. The studied samples show promising thermal and mechanical properties especially for both CTE and microhardness values, beside their chemical stability which could be applied for commercial uses. [Display omitted] •Glass-ceramic have been prepared from the SiO2-Li2O-TiO2 system•Lithium disilicate phase is identified as a main phase with other minor forms•The coefficients of thermal expansion, density and micro-harness are identified.
doi_str_mv 10.1016/j.matchemphys.2021.125216
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ispartof Materials chemistry and physics, 2022-01, Vol.275, p.125216, Article 125216
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1879-3312
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source ScienceDirect Journals
subjects Crystal structure
Crystallinity
Crystallization
CTE
Differential thermal analysis
Diffraction patterns
Glass ceramics
Glass-ceramic
LiS
LiS2
Lithium
Lithium oxides
Mechanical properties
Microhardness
Phases
Quartz
Silicon dioxide
SiO2-Li2O-TiO2 system
Ternary systems
Thermal expansion
Thermodynamic properties
Titanium dioxide
Trisilicate
X-ray diffraction
title Crystallization of the glasses within the SiO2-Li2O-TiO2 system
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