Y-PSZ/Bioglass 45S5 composite obtained by the infiltration technique of porous pre-sintered bodies using sacrificial molding
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2021 |
| Outros Autores: | , , , , , , |
| Tipo de documento: | Artigo |
| Idioma: | eng |
| Título da fonte: | Research, Society and Development |
| DOI: | 10.33448/rsd-v10i7.16920 |
| Texto Completo: | https://rsdjournal.org/index.php/rsd/article/view/16920 |
Resumo: | The aim of this work was to obtain porous ceramic parts based on Zirconia stabilized with 5mol.% Yttria (5Y-PSZ), suitable for the infiltration with bioactive glasses, using 3D printed sacrificial polymeric molds. In a first step, honeycomb structured molds were designed with the SolidWorks® software and manufactured by 3D printing using polylactic acid filaments (PLA). These molds were filled with a ceramic mass composed of 5Y-PSZ nanoparticles containing 3wt% polymeric binder and consolidated under pressure of 10MPa and then sintered at 1200 °C-30 min the polymeric molds were consumed. The obtained hexagonal-shaped, porous 5Y-TZP bodies were infiltrated with the bioactive glass 45S5, calcium sodium phosphosilicate, at 1350 °C. The materials were characterized by their relative density, their phase composition by X-ray diffraction analysis, and their microstructure by scanning electron microscopy (SEM-EDS), besides their mechanical properties of hardness and fracture toughness. Pre-sintered 5Y-PSZ substrates exhibit relative density around 75%, and 90% after sintering and Bioglass infiltration. The samples' microstructure is composed of a 5Y-PSZ matrix of sub-micrometric zirconia grains with an average size of 1.0 mm, besides the secondary infiltrated glassy phase homogeneously distributed, with a Ca/P ratio of 1.7, close to the ideal proportion for hydroxyapatite formation. In conclusion, sacrificial molding is an interesting route to obtaining dense Y-PSZ/Bioglass 45S5 composite in a honeycomb format. |
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Y-PSZ/Bioglass 45S5 composite obtained by the infiltration technique of porous pre-sintered bodies using sacrificial moldingComposite Y-PSZ / Bioglass 45S5 obtenido mediante la técnica de infiltración de cuerpos porosos presinterizados mediante moldeo de sacrifícioCompósito Y-PSZ/Biovidro 45S5 obtido pela técnica de infiltração de corpos porosos pré-sinterizados utilizando moldagem de sacrifício Composite5Y-PSZBioglass 45S5Impresión 3DInfiltraciónCaracterizaciones.Compósito5Y-PSZBioglass 45S5Impressão 3DInfiltraçãoCaracterizações.5Y-PSZBioglass 45S53D printingCompositeInfiltrationCharacterizations.The aim of this work was to obtain porous ceramic parts based on Zirconia stabilized with 5mol.% Yttria (5Y-PSZ), suitable for the infiltration with bioactive glasses, using 3D printed sacrificial polymeric molds. In a first step, honeycomb structured molds were designed with the SolidWorks® software and manufactured by 3D printing using polylactic acid filaments (PLA). These molds were filled with a ceramic mass composed of 5Y-PSZ nanoparticles containing 3wt% polymeric binder and consolidated under pressure of 10MPa and then sintered at 1200 °C-30 min the polymeric molds were consumed. The obtained hexagonal-shaped, porous 5Y-TZP bodies were infiltrated with the bioactive glass 45S5, calcium sodium phosphosilicate, at 1350 °C. The materials were characterized by their relative density, their phase composition by X-ray diffraction analysis, and their microstructure by scanning electron microscopy (SEM-EDS), besides their mechanical properties of hardness and fracture toughness. Pre-sintered 5Y-PSZ substrates exhibit relative density around 75%, and 90% after sintering and Bioglass infiltration. The samples' microstructure is composed of a 5Y-PSZ matrix of sub-micrometric zirconia grains with an average size of 1.0 mm, besides the secondary infiltrated glassy phase homogeneously distributed, with a Ca/P ratio of 1.7, close to the ideal proportion for hydroxyapatite formation. In conclusion, sacrificial molding is an interesting route to obtaining dense Y-PSZ/Bioglass 45S5 composite in a honeycomb format.El objetivo de este trabajo fue obtener piezas cerámicas porosas a base de Zirconia estabilizada con 5mol.% Yttria (5Y-PSZ), aptas para la infiltración con vidrios bioactivos, utilizando moldes poliméricos de sacrificio impresos en 3D. En un primer paso, se diseñaron moldes con estructura de panal con el software SolidWorks® y se fabricaron mediante impresión 3D utilizando filamentos de ácido poliláctico (PLA). Estos moldes se llenaron con una masa cerámica compuesta de nanopartículas de 5Y-PSZ que contenían un 3% en peso de aglutinante polimérico y se consolidaron a una presión de 10 MPa y luego se sinterizaron a 1200ºC-30 min. Se consumieron los moldes poliméricos. Los cuerpos de 5Y-TZP porosos de forma hexagonal obtenidos se infiltraron con el vidrio bioactivo 45S5, fosfosilicato de calcio y sodio, a 1350 °C. Los materiales se caracterizaron por su densidad relativa, su composición de fases por análisis de difracción de rayos X y su microestructura por microscopía electrónica de barrido (SEM-EDS), además de sus propiedades mecánicas de dureza y tenacidad a la fractura. Los sustratos presinterizados de 5Y-PSZ exhiben una densidad relativa de alrededor del 75% y el 90% después de la sinterización y la infiltración de Bioglass. La microestructura de las muestras está compuesta por una matriz 5Y-PSZ de granos de circonio submicrométrico con un tamaño promedio de 1.0 mm, además de la fase vítrea infiltrada secundaria distribuida homogéneamente, con una relación Ca / P de 1.7, cercana a la proporción ideal para formación de hidroxiapatita. En conclusión, el moldeo de sacrificio es una ruta interesante para obtener un compuesto denso Y-PSZ / Bioglass 45S5 en un formato de panal.O objetivo deste trabalho foi a obtenção de peças cerâmicas porosas à base de Zircônia estabilizada com 5mol.% de ítria (5Y-PSZ), adequadas para a infiltração com vidros bioativos, utilizando moldes poliméricos sacrificiais impressos em 3D. Em uma primeira etapa, os moldes estruturados em honeycombs foram projetados com o software SolidWorks® e fabricados por impressão 3D usando filamentos de ácido polilático (PLA). Esses moldes foram preenchidos com uma massa cerâmica composta por nanopartículas 5Y-PSZ contendo 3% em peso de ligante polimérico e consolidados sob pressão de 10MPa e então sinterizados a 1200 ° C-30 min os moldes poliméricos foram consumidos. Os corpos 5Y-TZP porosos de forma hexagonal obtidos foram infiltrados com o vidro bioativo 45S5, fosfosilicato de cálcio e sódio, a 1350 ° C. Os materiais foram caracterizados quanto à densidade relativa, composição de fases por difração de raios X e microestrutura por microscopia eletrônica de varredura (MEV-EDS), além de propriedades mecânicas de dureza e tenacidade à fratura. Substratos pré-sinterizados 5Y-PSZ exibem densidade relativa em torno de 75% e 90% após sinterização e infiltração de Biovidro. A microestrutura das amostras é composta por uma matriz 5Y-PSZ de grãos de zircônia submicrométricos com tamanho médio de 1,0 mm, além do infiltrado secundário fase vítrea distribuída homogeneamente, com relação Ca / P de 1,7, próxima à proporção ideal para formação de hidroxiapatita. Em conclusão, a moldagem sacrificial é uma rota interessante para a obtenção de compósito Y-PSZ / Bioglass 45S5 denso em formato de colmeia.Research, Society and Development2021-06-25info:eu-repo/semantics/articleinfo:eu-repo/semantics/publishedVersionapplication/pdfhttps://rsdjournal.org/index.php/rsd/article/view/1692010.33448/rsd-v10i7.16920Research, Society and Development; Vol. 10 No. 7; e57510716920Research, Society and Development; Vol. 10 Núm. 7; e57510716920Research, Society and Development; v. 10 n. 7; e575107169202525-3409reponame:Research, Society and Developmentinstname:Universidade Federal de Itajubá (UNIFEI)instacron:UNIFEIenghttps://rsdjournal.org/index.php/rsd/article/view/16920/14910Copyright (c) 2021 Raphael de Oliveira Luzo; Vinícios Dias de Oliveira; Marco Antonio da Costa; Claudinei dos Santos; José Eduardo Vasconcellos Amarante; Juliana Kelmy Macário Barboza Daguano; Kurt Strecker; Manuel Fellipe Rodrigues Pais Alveshttps://creativecommons.org/licenses/by/4.0info:eu-repo/semantics/openAccessLuzo, Raphael de OliveiraOliveira, Vinícios Dias deCosta, Marco Antonio daSantos, Claudinei dosAmarante, José Eduardo VasconcellosDaguano, Juliana Kelmy Macário Barboza Strecker, KurtAlves, Manuel Fellipe Rodrigues Pais2021-07-18T21:07:03Zoai:ojs.pkp.sfu.ca:article/16920Revistahttps://rsdjournal.org/index.php/rsd/indexPUBhttps://rsdjournal.org/index.php/rsd/oairsd.articles@gmail.com2525-34092525-3409opendoar:2024-01-17T09:37:20.773872Research, Society and Development - Universidade Federal de Itajubá (UNIFEI)false |
| dc.title.none.fl_str_mv |
Y-PSZ/Bioglass 45S5 composite obtained by the infiltration technique of porous pre-sintered bodies using sacrificial molding Composite Y-PSZ / Bioglass 45S5 obtenido mediante la técnica de infiltración de cuerpos porosos presinterizados mediante moldeo de sacrifício Compósito Y-PSZ/Biovidro 45S5 obtido pela técnica de infiltração de corpos porosos pré-sinterizados utilizando moldagem de sacrifício |
| title |
Y-PSZ/Bioglass 45S5 composite obtained by the infiltration technique of porous pre-sintered bodies using sacrificial molding |
| spellingShingle |
Y-PSZ/Bioglass 45S5 composite obtained by the infiltration technique of porous pre-sintered bodies using sacrificial molding Y-PSZ/Bioglass 45S5 composite obtained by the infiltration technique of porous pre-sintered bodies using sacrificial molding Luzo, Raphael de Oliveira Composite 5Y-PSZ Bioglass 45S5 Impresión 3D Infiltración Caracterizaciones. Compósito 5Y-PSZ Bioglass 45S5 Impressão 3D Infiltração Caracterizações. 5Y-PSZ Bioglass 45S5 3D printing Composite Infiltration Characterizations. Luzo, Raphael de Oliveira Composite 5Y-PSZ Bioglass 45S5 Impresión 3D Infiltración Caracterizaciones. Compósito 5Y-PSZ Bioglass 45S5 Impressão 3D Infiltração Caracterizações. 5Y-PSZ Bioglass 45S5 3D printing Composite Infiltration Characterizations. |
| title_short |
Y-PSZ/Bioglass 45S5 composite obtained by the infiltration technique of porous pre-sintered bodies using sacrificial molding |
| title_full |
Y-PSZ/Bioglass 45S5 composite obtained by the infiltration technique of porous pre-sintered bodies using sacrificial molding |
| title_fullStr |
Y-PSZ/Bioglass 45S5 composite obtained by the infiltration technique of porous pre-sintered bodies using sacrificial molding Y-PSZ/Bioglass 45S5 composite obtained by the infiltration technique of porous pre-sintered bodies using sacrificial molding |
| title_full_unstemmed |
Y-PSZ/Bioglass 45S5 composite obtained by the infiltration technique of porous pre-sintered bodies using sacrificial molding Y-PSZ/Bioglass 45S5 composite obtained by the infiltration technique of porous pre-sintered bodies using sacrificial molding |
| title_sort |
Y-PSZ/Bioglass 45S5 composite obtained by the infiltration technique of porous pre-sintered bodies using sacrificial molding |
| author |
Luzo, Raphael de Oliveira |
| author_facet |
Luzo, Raphael de Oliveira Luzo, Raphael de Oliveira Oliveira, Vinícios Dias de Costa, Marco Antonio da Santos, Claudinei dos Amarante, José Eduardo Vasconcellos Daguano, Juliana Kelmy Macário Barboza Strecker, Kurt Alves, Manuel Fellipe Rodrigues Pais Oliveira, Vinícios Dias de Costa, Marco Antonio da Santos, Claudinei dos Amarante, José Eduardo Vasconcellos Daguano, Juliana Kelmy Macário Barboza Strecker, Kurt Alves, Manuel Fellipe Rodrigues Pais |
| author_role |
author |
| author2 |
Oliveira, Vinícios Dias de Costa, Marco Antonio da Santos, Claudinei dos Amarante, José Eduardo Vasconcellos Daguano, Juliana Kelmy Macário Barboza Strecker, Kurt Alves, Manuel Fellipe Rodrigues Pais |
| author2_role |
author author author author author author author |
| dc.contributor.author.fl_str_mv |
Luzo, Raphael de Oliveira Oliveira, Vinícios Dias de Costa, Marco Antonio da Santos, Claudinei dos Amarante, José Eduardo Vasconcellos Daguano, Juliana Kelmy Macário Barboza Strecker, Kurt Alves, Manuel Fellipe Rodrigues Pais |
| dc.subject.por.fl_str_mv |
Composite 5Y-PSZ Bioglass 45S5 Impresión 3D Infiltración Caracterizaciones. Compósito 5Y-PSZ Bioglass 45S5 Impressão 3D Infiltração Caracterizações. 5Y-PSZ Bioglass 45S5 3D printing Composite Infiltration Characterizations. |
| topic |
Composite 5Y-PSZ Bioglass 45S5 Impresión 3D Infiltración Caracterizaciones. Compósito 5Y-PSZ Bioglass 45S5 Impressão 3D Infiltração Caracterizações. 5Y-PSZ Bioglass 45S5 3D printing Composite Infiltration Characterizations. |
| description |
The aim of this work was to obtain porous ceramic parts based on Zirconia stabilized with 5mol.% Yttria (5Y-PSZ), suitable for the infiltration with bioactive glasses, using 3D printed sacrificial polymeric molds. In a first step, honeycomb structured molds were designed with the SolidWorks® software and manufactured by 3D printing using polylactic acid filaments (PLA). These molds were filled with a ceramic mass composed of 5Y-PSZ nanoparticles containing 3wt% polymeric binder and consolidated under pressure of 10MPa and then sintered at 1200 °C-30 min the polymeric molds were consumed. The obtained hexagonal-shaped, porous 5Y-TZP bodies were infiltrated with the bioactive glass 45S5, calcium sodium phosphosilicate, at 1350 °C. The materials were characterized by their relative density, their phase composition by X-ray diffraction analysis, and their microstructure by scanning electron microscopy (SEM-EDS), besides their mechanical properties of hardness and fracture toughness. Pre-sintered 5Y-PSZ substrates exhibit relative density around 75%, and 90% after sintering and Bioglass infiltration. The samples' microstructure is composed of a 5Y-PSZ matrix of sub-micrometric zirconia grains with an average size of 1.0 mm, besides the secondary infiltrated glassy phase homogeneously distributed, with a Ca/P ratio of 1.7, close to the ideal proportion for hydroxyapatite formation. In conclusion, sacrificial molding is an interesting route to obtaining dense Y-PSZ/Bioglass 45S5 composite in a honeycomb format. |
| publishDate |
2021 |
| dc.date.none.fl_str_mv |
2021-06-25 |
| dc.type.driver.fl_str_mv |
info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion |
| format |
article |
| status_str |
publishedVersion |
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https://rsdjournal.org/index.php/rsd/article/view/16920 10.33448/rsd-v10i7.16920 |
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https://rsdjournal.org/index.php/rsd/article/view/16920 |
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10.33448/rsd-v10i7.16920 |
| dc.language.iso.fl_str_mv |
eng |
| language |
eng |
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https://rsdjournal.org/index.php/rsd/article/view/16920/14910 |
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https://creativecommons.org/licenses/by/4.0 info:eu-repo/semantics/openAccess |
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https://creativecommons.org/licenses/by/4.0 |
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openAccess |
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application/pdf |
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Research, Society and Development |
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Research, Society and Development |
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Research, Society and Development; Vol. 10 No. 7; e57510716920 Research, Society and Development; Vol. 10 Núm. 7; e57510716920 Research, Society and Development; v. 10 n. 7; e57510716920 2525-3409 reponame:Research, Society and Development instname:Universidade Federal de Itajubá (UNIFEI) instacron:UNIFEI |
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Universidade Federal de Itajubá (UNIFEI) |
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UNIFEI |
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UNIFEI |
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Research, Society and Development |
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Research, Society and Development |
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Research, Society and Development - Universidade Federal de Itajubá (UNIFEI) |
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rsd.articles@gmail.com |
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1822178547721043968 |
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10.33448/rsd-v10i7.16920 |