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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

Y-PSZ/Bioglass 45S5 composite obtained by the infiltration technique of porous pre-sintered bodies using sacrificial molding

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  • Medientyp: E-Artikel
  • Titel: Y-PSZ/Bioglass 45S5 composite obtained by the infiltration technique of porous pre-sintered bodies using sacrificial molding
  • Beteiligte: 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
  • Erschienen: Research, Society and Development, 2021
  • Erschienen in: Research, Society and Development
  • Sprache: Nicht zu entscheiden
  • DOI: 10.33448/rsd-v10i7.16920
  • ISSN: 2525-3409
  • Schlagwörter: Management Science and Operations Research ; Mechanical Engineering ; Energy Engineering and Power Technology
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  • Beschreibung: <jats:p>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.</jats:p>