2012
DOI: 10.1016/j.jeurceramsoc.2012.06.028
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Nano grain sized zirconia–silica glass ceramics for dental applications

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Cited by 43 publications
(24 citation statements)
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“…It appears that zirconium incorporation into a glass This study showed that Zr incorporation into the bioactive glass increased the mechanical strength, decreased the chemical solubility, and maintained a more stable pH environment while maintaining the ability to form apatite. Additionally, Persson et al [38] proposed an optimized sol-gel method to produce nano-grain-sized zirconia-silica monolithic glass-ceramics with adequate properties for dental applications and concluded that their material showed promising results for use in dental application; however, the production method is sensitive, and large specimen sizes were difficult to produce. In addition to these two studies, which were intended to develop porous and monolithic Zr-containing bioactive glasses, Ananth et al [39] coated a Ti6Al-4V alloy with a ZrO 2 /bioglass mixture using electrophoretic deposition, and a sol-gelderived bioactive glass was used in their study.…”
Section: Introductionmentioning
confidence: 99%
“…It appears that zirconium incorporation into a glass This study showed that Zr incorporation into the bioactive glass increased the mechanical strength, decreased the chemical solubility, and maintained a more stable pH environment while maintaining the ability to form apatite. Additionally, Persson et al [38] proposed an optimized sol-gel method to produce nano-grain-sized zirconia-silica monolithic glass-ceramics with adequate properties for dental applications and concluded that their material showed promising results for use in dental application; however, the production method is sensitive, and large specimen sizes were difficult to produce. In addition to these two studies, which were intended to develop porous and monolithic Zr-containing bioactive glasses, Ananth et al [39] coated a Ti6Al-4V alloy with a ZrO 2 /bioglass mixture using electrophoretic deposition, and a sol-gelderived bioactive glass was used in their study.…”
Section: Introductionmentioning
confidence: 99%
“…is type of chemical synthesis based on the speci c chemical reactions taking place in solution, and in a further step on a series of transformations starting solution -rst in the form of sol, then gel, ending with the conversion of the gel into a solid amorphous or crystalline structure [43,44]. erefore, this method is used to produce glass [45,64,65]. e conversion of the sol into gel is based on a dehydrated colloidal solution of material hydroxide particles, thereby producing a gelatinous substance, called the gel.…”
Section: Synthesis Of Nano-zirconia By the Sol-gel Methodsmentioning
confidence: 99%
“…is has been proven in many publications [44,45,67,68], but also by a combination of hydrothermal methods leading to the acquisition of nanocrystalline powders [32,36].…”
Section: Synthesis Of Nano-zirconia By the Sol-gel Methodsmentioning
confidence: 99%
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“…Given this mechanism, Y-TZP possesses adequate mechanical properties for clinical use as fixed prostheses when subjected to high stresses. Meanwhile, the excellent biocompatibility and optical properties of Y-TZP make it a suitable material for aesthetic and metal-free dental restoration [5,6]. Recently, Y-TZP has been extensively applied in dental crown applications because it offers better aesthetics and biocompatibility compared with metal restoration [4,5].…”
Section: Introductionmentioning
confidence: 99%