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Powder bed fusion of polyamide powders combined with different preceramic polymers infiltration and pyrolysis to produce complex-shaped ceramics

Marco Pelanconi, Samuele Bottacin, Paolo Colombo, Alberto Ortona

2023Journal of the European Ceramic Society16 citationsDOIOpen Access PDF

Abstract

The fabrication of a wide range of polymer-derived ceramic parts with high geometric complexity through a novel hybrid additive manufacturing technique is presented in this article. The process that we introduced in a previous work uses the powder bed fusion technology to manufacture high porous polymeric preforms to be then converted into ceramics through preceramic polymer infiltration and pyrolysis. The cellular architectures of a rotated cube (strut-based) and a gyroid (sheet-based) with 25 mm diameter, 44 mm height and 67% of geometric macroporosity were generated and used for the fabrication. The complex structures were 3D printed and polycarbosilane, polycarbosiloxane, polysilazane and furan liquid polymers were used to produce SiC, SiOC, SiCN and glassy carbon, respectively. Despite a linear shrinkage of about 24%, the parts maintained their designed complex shape without deformations. The significant advantages of the proposed method are the maturity of powder bed fusion for polymers with respect to ceramic additive manufacturing techniques and the possibility to fabricate net-shape complex ceramic parts directly from preceramic precursors.

Topics & Concepts

Materials scienceCeramicFabricationPolymerPyrolysisComposite materialFusionPorosityShrinkageNear net shape3D printingStereolithographyChemical engineeringEngineeringPathologyMedicineLinguisticsAlternative medicinePhilosophyAdditive Manufacturing and 3D Printing TechnologiesInnovations in Concrete and Construction MaterialsBone Tissue Engineering Materials
Powder bed fusion of polyamide powders combined with different preceramic polymers infiltration and pyrolysis to produce complex-shaped ceramics | Litcius