Your search keyword '"Zirconia ceramic"' showing total 7 results

1. Mechanical properties of zirconia octet truss structures fabricated by DLP 3D printing

Author

Zhao, Weiming, Wang, Cao, Xing, Bohang, Shen, Minhao, Zhao, Zhe, Zhao, Weiming, Wang, Cao, Xing, Bohang, Shen, Minhao, and Zhao, Zhe

Abstract

Zirconia ceramic octet-truss structures with various strut size and unit cell numbers were successfully fabricated through a DLP-based 3D printing method. The mechanical properties and energy absorption capacity under compressive load were investigated systematically. The sides of all cubes are 10 mm, the strut size was changed from 0.25 mm to 2 mm, cells number was in the range of 1(1 x 1 x 1)-125(5 x 5 x 5). It has been seen that the relative density, compressive strength and energy absorption increases with the increase of strut size when cell numbers remain the same. It can be concluded that the strength and energy absorption were affected by the relative density, strut size and the stacking mode of the unit cells. So far, with this study, a high compressive strength of 75.3 MPa and a reasonably good energy absorption of 6.76 x 10(5)J m(-3)can be achieved at a relative density of 48.57%., QC 20201126

Published

2020

2. Characterization of ageing resistant transparent nanocrystalline yttria-stabilized zirconia implants.

Author

Davoodzadeh, Nami, Davoodzadeh, Nami, Cano-Velázquez, Mildred S, Halaney, David L, Sabzeghabae, Ariana, Uahengo, Gottlieb, Garay, Javier E, Aguilar, Guillermo, Davoodzadeh, Nami, Davoodzadeh, Nami, Cano-Velázquez, Mildred S, Halaney, David L, Sabzeghabae, Ariana, Uahengo, Gottlieb, Garay, Javier E, and Aguilar, Guillermo

Abstract

The "Window to the Brain" is a transparent cranial implant under development, based on nanocrystalline yttria-stabilized zirconia (nc-YSZ) transparent ceramic material. Previous work has demonstrated the feasibility of this material to facilitate brain imaging over time, but the long-term stability of the material over decades in the body is unknown. In this study, the low-temperature degradation (LTD) of nc-YSZ of 3, 6, and 8 mol % yttria is compared before and after accelerated ageing treatments following ISO standards for assessing the ageing resistance of zirconia ceramics. After 100 hr of accelerated ageing (equivalent to many decades of ageing in the body), the samples do not show any signs of phase transformation to monoclinic by X-ray diffraction and micro-Raman spectroscopy. Moreover, the mechanical hardness of the samples did not decrease, and changes in optical transmittance from 500 to 1000 nm due to ageing treatments was minimal (below 3% for all samples), and unlikely to be due to phase transformation of surface crystals to monoclinic. These results indicate the nc-YSZ has excellent ageing resistance and can withstand long-term implantation conditions without exhibiting LTD.

Published

2020

3. Characterization of ageing resistant transparent nanocrystalline yttria-stabilized zirconia implants.

Author

Davoodzadeh, Nami, Davoodzadeh, Nami, Cano-Velázquez, Mildred S, Halaney, David L, Sabzeghabae, Ariana, Uahengo, Gottlieb, Garay, Javier E, Aguilar, Guillermo, Davoodzadeh, Nami, Davoodzadeh, Nami, Cano-Velázquez, Mildred S, Halaney, David L, Sabzeghabae, Ariana, Uahengo, Gottlieb, Garay, Javier E, and Aguilar, Guillermo

Abstract

The "Window to the Brain" is a transparent cranial implant under development, based on nanocrystalline yttria-stabilized zirconia (nc-YSZ) transparent ceramic material. Previous work has demonstrated the feasibility of this material to facilitate brain imaging over time, but the long-term stability of the material over decades in the body is unknown. In this study, the low-temperature degradation (LTD) of nc-YSZ of 3, 6, and 8 mol % yttria is compared before and after accelerated ageing treatments following ISO standards for assessing the ageing resistance of zirconia ceramics. After 100 hr of accelerated ageing (equivalent to many decades of ageing in the body), the samples do not show any signs of phase transformation to monoclinic by X-ray diffraction and micro-Raman spectroscopy. Moreover, the mechanical hardness of the samples did not decrease, and changes in optical transmittance from 500 to 1000 nm due to ageing treatments was minimal (below 3% for all samples), and unlikely to be due to phase transformation of surface crystals to monoclinic. These results indicate the nc-YSZ has excellent ageing resistance and can withstand long-term implantation conditions without exhibiting LTD.

Published

2020

4. Dense and strong ZrO2 ceramics fully densified in <15 min

Author

Li, Duan, Liu, Yongsheng, Zhong, Yuan, Liu, Leifeng, Adolfsson, Erik, Shen, Zhijian, Li, Duan, Liu, Yongsheng, Zhong, Yuan, Liu, Leifeng, Adolfsson, Erik, and Shen, Zhijian

Abstract

Crack-free zirconia ceramics were consolidated via sintering by intense thermal radiation (SITR) approach at 1600–1700°C for 3–5 min. The resulted ceramic bulks can achieve a relative density up to 99.6% with a grain size of 300–1200 nm. Their bending strength, Vickers hardness and indentation toughness values are up to 1244 ± 139 MPa, 13.3 ± 0.3 GPa and 5.5 ± 0.1 MPa m1/2, respectively. Quantitative Raman and XRD analysis show the presence of minor m phase on the natural surface (<7%), fracture surface (<10%) and indentation areas (<15%). It reveals that the SITR method is efficient for rapidly manufacturing zirconia ceramics with desired density, fine grained microstructure and good mechanical properties that are strongly demanded in dental applications.

Published

2019

5. Dense and strong ZrO2 ceramics fully densified in <15 min

Author

Li, Duan, Liu, Yongsheng, Zhong, Yuan, Liu, Leifeng, Adolfsson, Erik, Shen, Zhijian, Li, Duan, Liu, Yongsheng, Zhong, Yuan, Liu, Leifeng, Adolfsson, Erik, and Shen, Zhijian

Abstract

Crack-free zirconia ceramics were consolidated via sintering by intense thermal radiation (SITR) approach at 1600–1700°C for 3–5 min. The resulted ceramic bulks can achieve a relative density up to 99.6% with a grain size of 300–1200 nm. Their bending strength, Vickers hardness and indentation toughness values are up to 1244 ± 139 MPa, 13.3 ± 0.3 GPa and 5.5 ± 0.1 MPa m1/2, respectively. Quantitative Raman and XRD analysis show the presence of minor m phase on the natural surface (<7%), fracture surface (<10%) and indentation areas (<15%). It reveals that the SITR method is efficient for rapidly manufacturing zirconia ceramics with desired density, fine grained microstructure and good mechanical properties that are strongly demanded in dental applications.

Published

2019

6. Bonding of dual-cured resin cement to zirconia ceramic using phosphate acid ester monomer and zirconate coupler

Author

Yoshida, Keiichi, Tsuo, Yukiko, Atsuta, Mitsuru, Yoshida, Keiichi, Tsuo, Yukiko, and Atsuta, Mitsuru

Abstract

This study evaluated the shear bond strength between dual-cured resin luting cement and pure zirconium (99.9%) and industrially manufactured yttrium-oxide-partially-stabilized zirconia ceramic, and the effect of MDP (10-methacryloyloxydecyl dihydrogen phosphate) primer (MP) and zirconate coupler (ZC) on bond strength. Two different-shaped pure zirconium and zirconia ceramic specimens were untreated or treated with various primers, including different concentrations of MP containing phosphoric acid ester monomer (MDP) in ethanol, ZC containing a zirconate coupling agent in ethanol, or a mixture of MP and ZC. The specimens were then cemented together with dual-cured resin luting cement (Clapearl DC). Half of the specimens were stored in water at 37°C for 24 h and the other half were thermocycled 10,000 times before shear bond strength testing. The bond strengths of resin luting cement to both the zirconium and zirconia ceramic were enhanced by the application of most MPs, ZCs, and the mixtures of MP and ZC. For the group (MP2.0+ZC1.0) containing 2.0 wt % MP and 1.0 wt % ZC, no significant difference was observed between in shear bond strength before and after thermal cycling for both zirconium and zirconia ceramic (p > 0.05). For the other primers, statistically significant differences in shear bond strength before and after thermal cycling were observed (p < 0.05). The application of the mixture of MP and ZC (MP2.0+ZC1.0) was effective for bonding between zirconia ceramic and dual-cured resin luting cement. This primer may be clinically useful as an adhesive primer for zirconia ceramic restoration., This is a preprint of an article published in J Biomed Mater Res Part B: Appl Biomater 77B: 28-33, 2006

Published

2006

7. Bonding of dual-cured resin cement to zirconia ceramic using phosphate acid ester monomer and zirconate coupler

Author

Yoshida, Keiichi, Tsuo, Yukiko, Atsuta, Mitsuru, Yoshida, Keiichi, Tsuo, Yukiko, and Atsuta, Mitsuru

Abstract

This study evaluated the shear bond strength between dual-cured resin luting cement and pure zirconium (99.9%) and industrially manufactured yttrium-oxide-partially-stabilized zirconia ceramic, and the effect of MDP (10-methacryloyloxydecyl dihydrogen phosphate) primer (MP) and zirconate coupler (ZC) on bond strength. Two different-shaped pure zirconium and zirconia ceramic specimens were untreated or treated with various primers, including different concentrations of MP containing phosphoric acid ester monomer (MDP) in ethanol, ZC containing a zirconate coupling agent in ethanol, or a mixture of MP and ZC. The specimens were then cemented together with dual-cured resin luting cement (Clapearl DC). Half of the specimens were stored in water at 37°C for 24 h and the other half were thermocycled 10,000 times before shear bond strength testing. The bond strengths of resin luting cement to both the zirconium and zirconia ceramic were enhanced by the application of most MPs, ZCs, and the mixtures of MP and ZC. For the group (MP2.0+ZC1.0) containing 2.0 wt % MP and 1.0 wt % ZC, no significant difference was observed between in shear bond strength before and after thermal cycling for both zirconium and zirconia ceramic (p > 0.05). For the other primers, statistically significant differences in shear bond strength before and after thermal cycling were observed (p < 0.05). The application of the mixture of MP and ZC (MP2.0+ZC1.0) was effective for bonding between zirconia ceramic and dual-cured resin luting cement. This primer may be clinically useful as an adhesive primer for zirconia ceramic restoration., This is a preprint of an article published in J Biomed Mater Res Part B: Appl Biomater 77B: 28-33, 2006, Journal of Biomedical Materials Research Part B: Applied Biomaterials 77B: 28-33, 2006

Published

2006