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High-strength lithography-based additive manufacturing of ceramic components with rapid sintering

Anna‐Katharina Hofer, Andraž Kocjan, Raúl Bermejo

2022Additive manufacturing36 citationsDOIOpen Access PDF

Abstract

Additive manufacturing technology enables the fabrication of technical ceramics and multi-materials with unprecedented geometrical accuracy and complexity, opening the path to new functionalities for engineering applications. A crucial step to consolidate 3D-printed ceramic parts is “sintering”, a time and energy (temperature) intensive densification process. Here we present a strategy for rapid sintering (∼ 300–450 °C/min) of lithography-based additively manufactured alumina ceramics enabling consolidation of ceramic components of complex shapes within minutes. Highly dense, fine-grained microstructures were achieved by controlling densification and limiting grain growth through rapid radiation heat transfer. The high mechanical strength and toughness measured in additively manufactured alumina (∼ 810 MPa and ∼ 4.3 MPa m1/2) sintered at 1600 °C within 2 min was superior to that of conventionally sintered reference parts. This study opens the path for rapid sintering of complex shaped ceramic architectures of high density with tailored microstructure and properties.

Topics & Concepts

Materials scienceSinteringCeramicFabricationMicrostructureLithographyComposite materialGrain growthToughnessOptoelectronicsAlternative medicinePathologyMedicineAdditive Manufacturing and 3D Printing TechnologiesAdvanced ceramic materials synthesisAdvanced materials and composites