Sintering properties of zirconia-based ceramic composite
This study examines the effects of different ZrB2 content on various mechanical properties and electrical conductivity of ZrB2/Y-TZP composite. Composites with ZrB2 content of up to 20 wt-% were particularly beneficial at the lower sintering temperature range by achieving greater densification and b...
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2023
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my.uniten.dspace-218152023-05-15T12:13:17Z Sintering properties of zirconia-based ceramic composite Kelvin Chew W.J. Ramesh S. Wong Y.H. Misran H. Yusuf F. Tan C.Y. Amiriyan M. Tolouei R. Teng W.D. 55488782000 41061958200 36605495300 6506899840 56450508200 16029485400 36705737200 36706646500 36855788900 This study examines the effects of different ZrB2 content on various mechanical properties and electrical conductivity of ZrB2/Y-TZP composite. Composites with ZrB2 content of up to 20 wt-% were particularly beneficial at the lower sintering temperature range by achieving greater densification and better hardness than Y-TZP monolith. In contrast to the trends estimated from rule of mixture, the increment of ZrB2 content did not result in any significant improvement in the elastic modulus and hardness of the zirconia composites. Nevertheless, all composites showed tremendous improvement in fracture toughness compared with monolithic Y-TZP and thus, suggested that other toughening mechanisms were operative besides transformation toughening of zirconia. Incorporation of ZrB2 up to mass fraction of 20 wt-% into Y-TZP generally did not affect the tetragonal phase stability of zirconia. Significant reduction of electrical resistivity of the composites was achieved with ZrB2 content of 20 wt-% and sintering temperature of 1400°C. © W. S. Maney &Son Ltd 2014. Final 2023-05-12T16:17:57Z 2023-05-12T16:17:57Z 2014 Article 10.1179/1432891714Z.000000000939 2-s2.0-84918837073 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84918837073&doi=10.1179%2f1432891714Z.000000000939&partnerID=40&md5=cff9964c4a4d0e1fad7328d99e2ae414 https://irepository.uniten.edu.my/handle/123456789/21815 18 S6 105-S6-108 Maney Publishing Scopus |
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This study examines the effects of different ZrB2 content on various mechanical properties and electrical conductivity of ZrB2/Y-TZP composite. Composites with ZrB2 content of up to 20 wt-% were particularly beneficial at the lower sintering temperature range by achieving greater densification and better hardness than Y-TZP monolith. In contrast to the trends estimated from rule of mixture, the increment of ZrB2 content did not result in any significant improvement in the elastic modulus and hardness of the zirconia composites. Nevertheless, all composites showed tremendous improvement in fracture toughness compared with monolithic Y-TZP and thus, suggested that other toughening mechanisms were operative besides transformation toughening of zirconia. Incorporation of ZrB2 up to mass fraction of 20 wt-% into Y-TZP generally did not affect the tetragonal phase stability of zirconia. Significant reduction of electrical resistivity of the composites was achieved with ZrB2 content of 20 wt-% and sintering temperature of 1400°C. © W. S. Maney &Son Ltd 2014. |
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55488782000 |
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55488782000 Kelvin Chew W.J. Ramesh S. Wong Y.H. Misran H. Yusuf F. Tan C.Y. Amiriyan M. Tolouei R. Teng W.D. |
| format |
Article |
| author |
Kelvin Chew W.J. Ramesh S. Wong Y.H. Misran H. Yusuf F. Tan C.Y. Amiriyan M. Tolouei R. Teng W.D. |
| spellingShingle |
Kelvin Chew W.J. Ramesh S. Wong Y.H. Misran H. Yusuf F. Tan C.Y. Amiriyan M. Tolouei R. Teng W.D. Sintering properties of zirconia-based ceramic composite |
| author_sort |
Kelvin Chew W.J. |
| title |
Sintering properties of zirconia-based ceramic composite |
| title_short |
Sintering properties of zirconia-based ceramic composite |
| title_full |
Sintering properties of zirconia-based ceramic composite |
| title_fullStr |
Sintering properties of zirconia-based ceramic composite |
| title_full_unstemmed |
Sintering properties of zirconia-based ceramic composite |
| title_sort |
sintering properties of zirconia-based ceramic composite |
| publisher |
Maney Publishing |
| publishDate |
2023 |
| _version_ |
1806426498044788736 |
| score |
13.188404 |