Polymer-Infiltrated Ceramic Network Produced by Direct Ink Writing: The Effects of Manufacturing Design on Mechanical Properties

Author:

Zhang Junhui12,Pou Paula12,Hodásová Ludmila123,Yarahmadi Mona12ORCID,Elizalde Sergio4,Cabrera Jose-Maria45ORCID,Llanes Luis12ORCID,Armelin Elaine23ORCID,Fargas Gemma12ORCID

Affiliation:

1. CIEFMA-Departament de Ciència i Enginyeria de Materials, Campus Diagonal Besòs (EEBE), Universitat Politècnica de Catalunya-Barcelona Tech, c/Eduard Maristany, 10-14, Building I, 1st Floor, 08019 Barcelona, Spain

2. Barcelona Research Center for Multiscale Science and Engineering, Campus Diagonal Besòs (EEBE), Universitat Politècnica de Catalunya-Barcelona Tech, c/Eduard Maristany, 10-14, Building I, Basement Floor, 08019 Barcelona, Spain

3. IMEM-Departament d’Enginyeria Química, Campus Diagonal Besòs (EEBE), Universitat Politècnica de Catalunya-Barcelona Tech, c/Eduard Maristany, 10-14, Building I, 2nd Floor, 08019 Barcelona, Spain

4. PROCOMAME-Departament de Ciència i Enginyeria de Materials, Universitat Politècnica de Catalunya-BarcelonaTech, c/Eduard Maristany, 10-14, Building I, 1st Floor, 08019 Barcelona, Spain

5. Fundació CIM UPC, c/Llorens i Artigas, 12, 08021 Barcelona, Spain

Abstract

Polymer-infiltrated ceramic network (PICN) materials have gained considerable attention as tooth-restorative materials due to their mechanical compatibility with human teeth, especially with computer-aided design and computer-aided manufacturing (CAD/CAM) technologies. However, the designed geometry affects the mechanical properties of PICN materials. This study aims to study the relationship between manufacturing geometry and mechanical properties. In doing so, zirconia-based PICN materials with different geometries were fabricated using a direct ink-writing process, followed by copolymer infiltration. Comprehensive analyses of the microstructure and structural properties of zirconia scaffolds, as well as PICN materials, were performed. The mechanical properties were assessed through compression testing and digital image correlation analysis. The results revealed that the compression strength of PICN pieces was significantly higher than the respective zirconia scaffolds without polymer infiltration. In addition, two geometries (C-grid 0 and C-grid 45) have the highest mechanical performance.

Funder

Spanish Government

China Scholarship Council

Publisher

MDPI AG

Reference43 articles.

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