Journal
JOURNAL OF THE EUROPEAN CERAMIC SOCIETY
Volume 43, Issue 7, Pages 2894-2906Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.jeurceramsoc.2022.11.006
Keywords
Stereolithography; Composites; Zirconia; Plasticity; Phase transformation
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A new paste for stereolithography processing of dense 11Ce-TZP-based composites was developed using a commercial composite powder. The resulting microstructure from stereolithography showed larger strontium aluminate clustering and a matrix of zirconia-alumina grains, leading to greater plastic deformation without compromising strength. This method appears promising for the development of custom-made ceramic prostheses.
A commercial composite powder was used to develop a new paste for stereolithography processing (SLA) of dense 11Ce-TZP-based composites containing 8 vol.% of alumina and 8 vol.% of strontium aluminate. The same powder was used to prepare reference ceramics by conventional Cold Isostatic Pressing (CIP) and sintering. The use of SLA gave rise to a microstructure containing larger strontium aluminate clustering surrounded by zirconia grains devoid of alumina particles, which appeared embedded in a matrix of zirconia-alumina grains. This slightly more heterogeneous microstructure favoured the formation of a greater number of thinner transformation bands, causing a larger plastic deformation in SLA samples (failure strain of 0.65 % instead of 0.35 % for CIP samples), without compromising characteristic strength (sigma(0) = 560 and 586 MPa respectively). Thus, SLA does not affect the ductile behaviour that characterizes this type of ceramics and appears as a very promising method for the development of custom-made ceramic prostheses.
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