Examining the impact of MnO2 and CeO2 on mechanical properties, degradability, and the microstructure of Zirconia
The effect of CeO2 and MnO2 additions (up to 1 wt%) on the sintering behaviour of yttria-stabilized zirconia sintered from 1250�C to 1450�C was investigated. From the findings, mechanical properties are likely to improve via the addition of 0.2 wt% CeO2 and 0.8 wt% MnO2 with Y-TZP. This composition...
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2023
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my.uniten.dspace-246242023-05-29T15:25:15Z Examining the impact of MnO2 and CeO2 on mechanical properties, degradability, and the microstructure of Zirconia Dinesh R. Meenaloshini S. Mohsen G. Sankar U. 56740614600 48561725600 56741523000 57188558332 The effect of CeO2 and MnO2 additions (up to 1 wt%) on the sintering behaviour of yttria-stabilized zirconia sintered from 1250�C to 1450�C was investigated. From the findings, mechanical properties are likely to improve via the addition of 0.2 wt% CeO2 and 0.8 wt% MnO2 with Y-TZP. This composition increased the density of Y-TZP. The value of density achieved was about 6.04 g/cm3, approximately 98% of the theoretical density of Y-TZP. The mechanical properties (i.e. hardness and strength) of the material were significantly increased as well. Besides that, the 0.2 wt% CeO2 and 0.8 wt% MnO2 composite displayed higher elasticity of 211 GPa compared to pure Y-TZP with a theoretical value of 200 GPa. Sintering over 1450 �C is expected to degenerate the composite�s physical and mechanical properties. Sintering at higher temperatures (>1350 �C) would affect the properties of the composite, due to a bigger grain size obtained at high temperature. � BEIESP. Final 2023-05-29T07:25:15Z 2023-05-29T07:25:15Z 2019 Article 2-s2.0-85073333164 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85073333164&partnerID=40&md5=9e79a9f4880a6dffc1ba068df9e845c4 https://irepository.uniten.edu.my/handle/123456789/24624 8 8 Special Issue 3 574 577 Blue Eyes Intelligence Engineering and Sciences Publication Scopus |
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The effect of CeO2 and MnO2 additions (up to 1 wt%) on the sintering behaviour of yttria-stabilized zirconia sintered from 1250�C to 1450�C was investigated. From the findings, mechanical properties are likely to improve via the addition of 0.2 wt% CeO2 and 0.8 wt% MnO2 with Y-TZP. This composition increased the density of Y-TZP. The value of density achieved was about 6.04 g/cm3, approximately 98% of the theoretical density of Y-TZP. The mechanical properties (i.e. hardness and strength) of the material were significantly increased as well. Besides that, the 0.2 wt% CeO2 and 0.8 wt% MnO2 composite displayed higher elasticity of 211 GPa compared to pure Y-TZP with a theoretical value of 200 GPa. Sintering over 1450 �C is expected to degenerate the composite�s physical and mechanical properties. Sintering at higher temperatures (>1350 �C) would affect the properties of the composite, due to a bigger grain size obtained at high temperature. � BEIESP. |
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56740614600 |
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56740614600 Dinesh R. Meenaloshini S. Mohsen G. Sankar U. |
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Dinesh R. Meenaloshini S. Mohsen G. Sankar U. |
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Dinesh R. Meenaloshini S. Mohsen G. Sankar U. Examining the impact of MnO2 and CeO2 on mechanical properties, degradability, and the microstructure of Zirconia |
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Dinesh R. |
| title |
Examining the impact of MnO2 and CeO2 on mechanical properties, degradability, and the microstructure of Zirconia |
| title_short |
Examining the impact of MnO2 and CeO2 on mechanical properties, degradability, and the microstructure of Zirconia |
| title_full |
Examining the impact of MnO2 and CeO2 on mechanical properties, degradability, and the microstructure of Zirconia |
| title_fullStr |
Examining the impact of MnO2 and CeO2 on mechanical properties, degradability, and the microstructure of Zirconia |
| title_full_unstemmed |
Examining the impact of MnO2 and CeO2 on mechanical properties, degradability, and the microstructure of Zirconia |
| title_sort |
examining the impact of mno2 and ceo2 on mechanical properties, degradability, and the microstructure of zirconia |
| publisher |
Blue Eyes Intelligence Engineering and Sciences Publication |
| publishDate |
2023 |
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1806428228996300800 |
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13.189132 |