Glass in the system SiO2–Al2O3–SrO–P2O5–F with phosphorus oxide content 7 – 12 mol.% was obtained. The combination of properties of the resulting glass (refractive index 1.514 – 1.535, CLTE 44 × 10 –7 – 61 × 10 –7 K – 1, transmission > 85%, radio-opacity ≥ 300%), together with the ease of the synthesis process (melting temperature < 1500°C), indicates that such glass holds promise for use as a filler in glass ionomer cements for dentistry.
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References
A. D.Wilson and B. E. Kent, British Pat. No. 1316129. Surgical Cement, applied for 1969, published 1973.
Alan D. Wilson, “Glass-ionomer cement-origins, Development and future,” Clinical Mater., 7(4), 275 – 282 (1991).
ISO 9917–1: Dental Water Based Cements, International Organization for Standardization, Geneva, Switzerland (2003).
Sh. K. Sidhu and J. W. Nicholson, “A Review of Glass Ionomer Cements for Clinical Dentistry,” J. Funct. Biomater., 7(3), 16 (2016).
Richard van Nurt, Fundamentals of Dental Materials Science [Russian translation], Mosby, Edinburgh, KMK-Invest, Moscow (2002).
F. S. Rusanov, I. Ya. Poyurovskaya, E. K. Krechina, and G. V. Sogachev, “Adhesion as a criterion for choosing a material for the restoration of teeth with defects in the cervical region,” Stomatologiya, 94(4), 29 – 34 (2015).
C. M. Chung, J. G. Kim, M. S. Kim, et al., “Development of a new photocurable composite resin with reduced curing shrinkage,” Dent. Mater., 18(2), 174 – 178 (2002).
R. G. Hill and A. D.Wilson, “Some structural aspects of glasses used in ionomer cement,” Glass Technol., 29(4), 150 – 188 (1988).
N. V. Bidenko, Glass Ionomer Materials and Their Application in Dentistry [in Russian], Kniga plus, Moscow (2003).
S. Shahid, U. Hassan, R. W. Billington, et al., “Glass ionomer cements: Effect of strontium substitution on esthetics, radiopacity and fluoride release,” Dent. Mater., 30(3), 308 – 313 (2014).
V. V. Maslov, T. B. Tkachenko, and N. A. Orlova; A. P. Bobrov (ed.), Dental Filling Materials [in Russian]; Izd. SPbGMU (2006).
A. Clifford, R. G. Hill, M. R. Towler, and D. J.Wood, “The crystallization of glasses from the ternary CaF2–CaAl2Si2O8–P2O5 system,” J. Mater. Sci., 36(16), 3955 – 3961 (2001).
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Translated from Steklo i Keramika, No. 11, pp. 9 – 16, November, 2022.
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Romanenko, A.A., Zinina, E.M., Savinkov, V.I. et al. Glass with Enhanced Phosphorus Oxide Content for Fillers of Glass Ionomer Cements. Glass Ceram 79, 443–447 (2023). https://doi.org/10.1007/s10717-023-00529-1
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DOI: https://doi.org/10.1007/s10717-023-00529-1