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2012 | OriginalPaper | Chapter

12. Lithium Disilicate Glass Ceramics

Authors : Emad El-Meliegy, Richard van Noort

Published in: Glasses and Glass Ceramics for Medical Applications

Publisher: Springer New York

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Abstract

In this chapter, the best way to crystallize and process lithium disilicate glass ceramics for dental applications is discussed. In addition, the best way to modify the chemical composition and optimize the microstructure to achieve lithium metasilicate or lithium disilicate is assessed.

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Literature
go back to reference Borom, M.P., Turkalo, A.M.: Strength and microstructure in lithium disilicate glass-ceramics. J. Am. Ceram. Soc. 58, 9–10 (1975)CrossRef Borom, M.P., Turkalo, A.M.: Strength and microstructure in lithium disilicate glass-ceramics. J. Am. Ceram. Soc. 58, 9–10 (1975)CrossRef
go back to reference Brodkin, D., Panzera C., Panzera P.: Pressable lithium disilicate glass ceramics. US patent 6,455,451, 2002 Brodkin, D., Panzera C., Panzera P.: Pressable lithium disilicate glass ceramics. US patent 6,455,451, 2002
go back to reference Doherty, P.E., Lee, D.W., Avis, R.S.: Direct observation of the crystallization of Li2O-Al2O3-SiO2 glasses containing TiO2. J. Am. Ceram. Soc. 50(2), 77–81 (1967)CrossRef Doherty, P.E., Lee, D.W., Avis, R.S.: Direct observation of the crystallization of Li2O-Al2O3-SiO2 glasses containing TiO2. J. Am. Ceram. Soc. 50(2), 77–81 (1967)CrossRef
go back to reference Hench, L.L., Freiman, S.W., Kinser, D.L.: Phys Chem. Glasses 12, 58 (1971) Hench, L.L., Freiman, S.W., Kinser, D.L.: Phys Chem. Glasses 12, 58 (1971)
go back to reference Höland, W., Schweiger, M., Frank, M., et al.: A comparison of the microstructure and properties of the IPS Empress 2 and the IPS Empress glass-ceramics. J Biomed. Mater Res. 53, 297–303 (2000)CrossRef Höland, W., Schweiger, M., Frank, M., et al.: A comparison of the microstructure and properties of the IPS Empress 2 and the IPS Empress glass-ceramics. J Biomed. Mater Res. 53, 297–303 (2000)CrossRef
go back to reference Iqbal, Y., Lee, W.E., Holland, D., James, P.F.: Crystal nucleation in P2O5-doped lithium disilicate glasses. J Mater Sci 34, 4399–4411 (1999)CrossRef Iqbal, Y., Lee, W.E., Holland, D., James, P.F.: Crystal nucleation in P2O5-doped lithium disilicate glasses. J Mater Sci 34, 4399–4411 (1999)CrossRef
go back to reference Kim, S.S., Sanders, T.H.: Thermodynamic modeling of phase diagrams in binary alkali silicate systems. J. Am. Ceram. Soc. 74(8), 1833–1840 (1991)CrossRef Kim, S.S., Sanders, T.H.: Thermodynamic modeling of phase diagrams in binary alkali silicate systems. J. Am. Ceram. Soc. 74(8), 1833–1840 (1991)CrossRef
go back to reference Kracek, F.C.: The cristobalite liquidus in the alkali oxide-silica systems and the heat of fusion of cristobalite. J. Am. Chem. Soc. 52(4), 1436–1442 (1930)CrossRef Kracek, F.C.: The cristobalite liquidus in the alkali oxide-silica systems and the heat of fusion of cristobalite. J. Am. Chem. Soc. 52(4), 1436–1442 (1930)CrossRef
go back to reference Moriya, Y., Warrington, D.H., Douglas, R.W.: Phys Chem. Glasses 8(1), 19–25 (1967) Moriya, Y., Warrington, D.H., Douglas, R.W.: Phys Chem. Glasses 8(1), 19–25 (1967)
go back to reference Peall, G.H.: Lithium disilicate containing glass ceramics some of which are self glazing. EP 536 479 A1, 1993 Peall, G.H.: Lithium disilicate containing glass ceramics some of which are self glazing. EP 536 479 A1, 1993
go back to reference Pierson, J.E.: Lithium disilicate containing glass ceramics some of which are self glazing. EP 0536479 A1, 1992 Pierson, J.E.: Lithium disilicate containing glass ceramics some of which are self glazing. EP 0536479 A1, 1992
go back to reference Samsonov, G.V.: The Oxide Handbook, 2nd edn. IFI/Plenum, New York (1982) Samsonov, G.V.: The Oxide Handbook, 2nd edn. IFI/Plenum, New York (1982)
go back to reference Schweiger, M., Frank, M., Rheinberger, V., Höland, W.: Sinterable lithium disilicate glass ceramic. US patent 5,968,856, 1999 Schweiger, M., Frank, M., Rheinberger, V., Höland, W.: Sinterable lithium disilicate glass ceramic. US patent 5,968,856, 1999
go back to reference Schweiger, M., Frank, M., Rheinberger, V., Höland W.: Lithium disilicate glass ceramics dental product. US patent 6,342,458, 2002 Schweiger, M., Frank, M., Rheinberger, V., Höland W.: Lithium disilicate glass ceramics dental product. US patent 6,342,458, 2002
go back to reference Schweiger, M., Frank, M., Rheinberger, V., Höland, W.: Sinterable lithium disilicate glass ceramic. US patent 6,514,893, 2003 Schweiger, M., Frank, M., Rheinberger, V., Höland, W.: Sinterable lithium disilicate glass ceramic. US patent 6,514,893, 2003
Metadata
Title
Lithium Disilicate Glass Ceramics
Authors
Emad El-Meliegy
Richard van Noort
Copyright Year
2012
Publisher
Springer New York
DOI
https://doi.org/10.1007/978-1-4614-1228-1_12

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