Ussui, Valter; Lazar, Dolores Ribeiro; de Lima, Nelson; Arata, Anelyse; Ribeiro, Fabio; Dalpian, Gustavo M.; Marchi, Juliana; Paschoal, José Octavio Room temperature plasticity of zirconia-yttria-titania ceramics: Experimental indications and structural modelling Journal Article Em: PAC, vol. 16, não 4, pp. 367–373, 2023, ISSN: 2406-1034. Resumo | Links | BibTeX | Tags: Ceramics and Composites@article{Ussui2022,
title = {Room temperature plasticity of zirconia-yttria-titania ceramics: Experimental indications and structural modelling},
author = {Valter Ussui and Dolores Ribeiro Lazar and Nelson de Lima and Anelyse Arata and Fabio Ribeiro and Gustavo M. Dalpian and Juliana Marchi and José Octavio Paschoal},
doi = {10.2298/pac2204367u},
issn = {2406-1034},
year = {2023},
date = {2023-00-00},
urldate = {2023-00-00},
journal = {PAC},
volume = {16},
number = {4},
pages = {367--373},
publisher = {National Library of Serbia},
abstract = {
mechanical properties. However, such materials cannot undergo plastic
deformation at room temperature due to their high hardness and brittleness
values, hindering machinability. To overcome these limitations, we propose a
zirconia-yttria-titania ceramics, based on zirconia containing 3mol% yttria
and up to 15mol% titania. The zirconia-yttria-titania powders were
synthesized by co-precipitation method, uniaxially pressed and sintered at
1400?C/5 h. Sample characterizations were carried out by X-ray diffraction,
scanning electron microscopy and mechanical properties through Vickers
hardness and toughness measurements. Compared to the Y-TZP ceramics, the
yttria stabilised tetragonal zirconia ceramics co-doped with 10mol%Ti showed
noticeable increase of tetragonality parameter, higher toughness and lower
hardness values, indicating plasticity at room temperature. Furthermore, the
atomistic simulation by Density Functional Theory methodology suggests the
occurrence of spatial arrangement of the atoms, explaining the proposed
plasticity.
keywords = {Ceramics and Composites},
pubstate = {published},
tppubtype = {article}
}
mechanical properties. However, such materials cannot undergo plastic
deformation at room temperature due to their high hardness and brittleness
values, hindering machinability. To overcome these limitations, we propose a
zirconia-yttria-titania ceramics, based on zirconia containing 3mol% yttria
and up to 15mol% titania. The zirconia-yttria-titania powders were
synthesized by co-precipitation method, uniaxially pressed and sintered at
1400?C/5 h. Sample characterizations were carried out by X-ray diffraction,
scanning electron microscopy and mechanical properties through Vickers
hardness and toughness measurements. Compared to the Y-TZP ceramics, the
yttria stabilised tetragonal zirconia ceramics co-doped with 10mol%Ti showed
noticeable increase of tetragonality parameter, higher toughness and lower
hardness values, indicating plasticity at room temperature. Furthermore, the
atomistic simulation by Density Functional Theory methodology suggests the
occurrence of spatial arrangement of the atoms, explaining the proposed
plasticity.</jats:p>