Indentation size effect in aqueous electrophoretic deposition zirconia dental ceramic.

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dc.contributor.author Asempah, I.
dc.contributor.author Xu, L.
dc.contributor.author Zang, S. Q.
dc.contributor.author Yan-Fei, Z.
dc.contributor.author Ding, J.
dc.contributor.author Jin, L.
dc.date.accessioned 2023-01-19T12:40:41Z
dc.date.available 2023-01-19T12:40:41Z
dc.date.issued 2019
dc.identifier.uri https://link.springer.com/article/10.1557/jmr.2018.464
dc.identifier.uri http://atuspace.atu.edu.gh:8080/handle/123456789/2491
dc.description.abstract Highly dense zirconia dental ceramic coatings were fabricated by aqueous electrophoretic deposition (EPD) and subsequently sintered between 1250 and 1450 °C. Microstructural examination revealed that aqueous EPDZrO2 coatings possessed a tetragonal phase structure and the grain size increased with increasing sintering temperature. Nanoindentation study proved that the aqueous EPDZrO2 coating also had excellent mechanical properties. The effect of different applied loads on hardness and elastic modulus of the 1350 °C-sintered sample at room temperature was investigated by the method of progressive multicycle measurement nanoindentation. The simulative experiment proved that hardness of aqueous EPDZrO2 exhibited reverse indentation size effect (ISE) behavior and then displayed the normal ISE response. The analysis indicates that the reverse ISE is attributed to the relaxation of surface stresses resulting from indentation cracks at small loads and normal ISE is caused by geometrically necessary dislocations. The tetragonal—monoclinic stress-induced phase transformation during nanoindentation is the primary cause of dental zirconia failures. en_US
dc.language.iso en_US en_US
dc.publisher Journal of Materials Research, en_US
dc.relation.ispartofseries vol;34
dc.subject Nanoindentation en_US
dc.subject Electrodeposition en_US
dc.subject Ceramic en_US
dc.title Indentation size effect in aqueous electrophoretic deposition zirconia dental ceramic. en_US
dc.type Article en_US


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