Influence of ZrO2 and P2O5 addition on phase formation, optical transmittance and microhardness in lithium disilicate based glass-ceramics

Influence of ZrO2 and P2O5 addition on phase formation, optical transmittance and microhardness in lithium disilicate based glass-ceramics

•The ZrO2 addition polymerizes the overall glass network by forming the Si-O-Zr bonds.•P2O5 addition further strengthens the glass network by increasing Q4 units.•ZrO2 addition hampers the LS2 phase formation.•High Hv (6.7±0.09 GPa) and an optical transmittance 63% have been obtained. 99(1Li2O:2SiO2...

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Bibliographic Details
Published in:Journal of non-crystalline solids Vol. 600; p. 122023
Main Authors: Satyanarayana, Peddy, Deshpande, A.V., Deshpande, V.K., Singh, Sarabjit
Format: Journal Article
Language:English
Published: Elsevier B.V 15-01-2023
Subjects:
Lithium disilicate
Microhardness
NMR
Transparent glass-ceramics
NMR
Lithium disilicate
Microhardness
Transparent glass-ceramics
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Summary:•The ZrO2 addition polymerizes the overall glass network by forming the Si-O-Zr bonds.•P2O5 addition further strengthens the glass network by increasing Q4 units.•ZrO2 addition hampers the LS2 phase formation.•High Hv (6.7±0.09 GPa) and an optical transmittance 63% have been obtained. 99(1Li2O:2SiO2)-1K2O glasses have been synthesized by a melt quenching technique with the consecutive addition of ZrO2 and P2O5. The addition of ZrO2 decreases the Q2 units and increases the Q3 units due to the formation of Si-O-Zr bonds. Whereas the P2O5 addition increases the fraction of Q4 units while decreasing the Q2 and Q3 units by forming disordered Li3PO4 and Li4P2O7 regions in the glasses. The changes in the fraction of Q2, Q3 and Q4 units affect the crystallization sequence in glass-ceramics. The ZrO2 addition hampers the Li2Si2O5 phase formation and allows the Li2SiO3 phase formation. Whereas, the P2O5 addition promotes the formation of both the Li2Si2O5 and Li2SiO3 phases. For the glass-ceramic containing 2 mol % P2O5, the highest Hv 6.7±0.09 GPa and an optical transmittance 63 % (at a wavelength of 550 nm for the specimen thickness 2 mm) could be achieved.
ISSN:0022-3093
1873-4812
DOI:10.1016/j.jnoncrysol.2022.122023