A multi technique study of a new lithium disilicate glass-ceramic spray-coated on ZrO2 substrate for dental restoration

A multi technique study of a new lithium disilicate glass-ceramic spray-coated on ZrO2 substrate for dental restoration

An alkali niobate-silicate veneer ceramic for ZrO2-based dental restoration was developed and characterized for its physical properties and structure. The properties were adjusted for dental applications. The new lithium disilicate glass-ceramic VBK (sold as cerafusion or LiSi) can easily be applied...

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Main Authors: Möncke Doris, Ehrt Roland, Palles Dimitrios, Efthimiopoulos Ilias, Kamitsos Efstratios I., Johannes Martina
Format: Article
Language:English
Published: Sciendo 2017-09-01
Series:Biomedical Glasses
Online Access:https://doi.org/10.1515/bglass-2017-0004
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spelling doaj-c55f76a3023b4194835cc5ff158081c02021-09-05T20:42:18ZengSciendoBiomedical Glasses2299-39322017-09-0131415510.1515/bglass-2017-0004bglass-2017-0004A multi technique study of a new lithium disilicate glass-ceramic spray-coated on ZrO2 substrate for dental restorationMöncke Doris0Ehrt Roland1Palles Dimitrios2Efthimiopoulos Ilias3Kamitsos Efstratios I.4Johannes Martina5Theoretical and Physical Chemistry Institute, National Hellenic Research Foundation, 48 Vassileos Constantinou Avenue, 11635 Athens, GreeceIGK Roland Ehrt Ingenieurleistung Glas-Keramik-QM, Rudolf-Breitscheid Str. 51, 07747 Jena, GermanyTheoretical and Physical Chemistry Institute, National Hellenic Research Foundation, 48 Vassileos Constantinou Avenue, 11635 Athens, GreeceHelmholtz-Zentrum Potsdam, Section 4.3, GeoForschungsZentrum GFZ, Telegrafenberg, 14473 Potsdam, GermanyTheoretical and Physical Chemistry Institute, National Hellenic Research Foundation, 48 Vassileos Constantinou Avenue, 11635 Athens, GreeceFraunhofer Institute for Ceramic Technologies and Systems IKTS, Michael-Faraday-Str.1, 07629 Hermsdorf, GermanyAn alkali niobate-silicate veneer ceramic for ZrO2-based dental restoration was developed and characterized for its physical properties and structure. The properties were adjusted for dental applications. The new lithium disilicate glass-ceramic VBK (sold as cerafusion or LiSi) can easily be applied by spray coating to any individually formed ZrO2-matrix and needs only one final tempering treatment. The surface of the glass-ceramic is very smooth. The color of the already translucent glass-ceramic can be adjusted to that of individual natural teeth. The structure of the glass-ceramicwas studied by XRD and Ramanspectroscopy as a function of heat-treatment and of spatial variations within the material and at its interfaces. ToF SIMS, SEM and thermal analysis techniques were applied to investigate the crystallization behavior and surface-interface reactions. XRD and Raman spectroscopy identified different crystalline phases in the amorphous glass matrix including Li2Si2O5, Li2SiO3, NaxLi(1−x)NbO3 and Na3NbO4. The Raman spectrum of the amorphous matrix is dominated by the vibrational activity of the highly polarizable niobate units with a prominent feature at 865 cm−1, assigned to Nb-O stretching in NbO6 octahedra, which have non-bridging oxygen atoms and are connected to the silicate matrix rather than to other niobate polyhedra.https://doi.org/10.1515/bglass-2017-0004
collection DOAJ
language English
format Article
sources DOAJ
author Möncke Doris
Ehrt Roland
Palles Dimitrios
Efthimiopoulos Ilias
Kamitsos Efstratios I.
Johannes Martina
spellingShingle Möncke Doris
Ehrt Roland
Palles Dimitrios
Efthimiopoulos Ilias
Kamitsos Efstratios I.
Johannes Martina
A multi technique study of a new lithium disilicate glass-ceramic spray-coated on ZrO2 substrate for dental restoration
Biomedical Glasses
author_facet Möncke Doris
Ehrt Roland
Palles Dimitrios
Efthimiopoulos Ilias
Kamitsos Efstratios I.
Johannes Martina
author_sort Möncke Doris
title A multi technique study of a new lithium disilicate glass-ceramic spray-coated on ZrO2 substrate for dental restoration
title_short A multi technique study of a new lithium disilicate glass-ceramic spray-coated on ZrO2 substrate for dental restoration
title_full A multi technique study of a new lithium disilicate glass-ceramic spray-coated on ZrO2 substrate for dental restoration
title_fullStr A multi technique study of a new lithium disilicate glass-ceramic spray-coated on ZrO2 substrate for dental restoration
title_full_unstemmed A multi technique study of a new lithium disilicate glass-ceramic spray-coated on ZrO2 substrate for dental restoration
title_sort multi technique study of a new lithium disilicate glass-ceramic spray-coated on zro2 substrate for dental restoration
publisher Sciendo
series Biomedical Glasses
issn 2299-3932
publishDate 2017-09-01
description An alkali niobate-silicate veneer ceramic for ZrO2-based dental restoration was developed and characterized for its physical properties and structure. The properties were adjusted for dental applications. The new lithium disilicate glass-ceramic VBK (sold as cerafusion or LiSi) can easily be applied by spray coating to any individually formed ZrO2-matrix and needs only one final tempering treatment. The surface of the glass-ceramic is very smooth. The color of the already translucent glass-ceramic can be adjusted to that of individual natural teeth. The structure of the glass-ceramicwas studied by XRD and Ramanspectroscopy as a function of heat-treatment and of spatial variations within the material and at its interfaces. ToF SIMS, SEM and thermal analysis techniques were applied to investigate the crystallization behavior and surface-interface reactions. XRD and Raman spectroscopy identified different crystalline phases in the amorphous glass matrix including Li2Si2O5, Li2SiO3, NaxLi(1−x)NbO3 and Na3NbO4. The Raman spectrum of the amorphous matrix is dominated by the vibrational activity of the highly polarizable niobate units with a prominent feature at 865 cm−1, assigned to Nb-O stretching in NbO6 octahedra, which have non-bridging oxygen atoms and are connected to the silicate matrix rather than to other niobate polyhedra.
url https://doi.org/10.1515/bglass-2017-0004
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