Direct ink writing of ZrB2-SiC chopped fiber ceramic composites

Ultra-high temperature ceramics (UHTCs) are of interest for thermally- and/or mechanically- extreme environments because of their high melting temperatures (>3000 °C) and ablation resistance. More widespread use is limited by low fracture toughness and inability to be processed into complex-shape...

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Bibliographic Details
Published in:Additive manufacturing 2021-08, Vol.44, p.102049, Article 102049
Main Authors: Kemp, James W., Diaz, Abel A., Malek, Elizabeth C., Croom, Brendan P., Apostolov, Zlatomir D., Kalidindi, Surya R., Compton, Brett G., Rueschhoff, Lisa M.
Format: Article
Language:English
Subjects:
Ceramic matrix composite
Direct ink writing
Preceramic polymer
Silicon carbide
Ultra-high temperature ceramics
Zirconium diboride
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Summary:Ultra-high temperature ceramics (UHTCs) are of interest for thermally- and/or mechanically- extreme environments because of their high melting temperatures (>3000 °C) and ablation resistance. More widespread use is limited by low fracture toughness and inability to be processed into complex-shaped components. Here, we report the production of fiber-reinforced UHTC matrix composites (UHTCMCs) formed via the additive manufacturing technique of direct ink writing (DIW). Slurry 'inks' were developed containing up to 47.5 vol% of the UHTC zirconium diboride (ZrB2), up to 10 vol% chopped silicon carbide fiber (SiCf), and a silicon carbide (SiC) precursor polymer. Lattice structures and flexural specimens were printed and pyrolyzed to form UHTCMCs with aligned (relative to the print direction) SiCf in the ZrB2 – SiC matrix. Flexural strength of fiber-containing parts is presented, and fiber alignment due to deposition is analyzed with X-ray computed tomography. Defects that occurred during the DIW process, and their probable causes and mitigation strategies are also discussed. [Display omitted]
ISSN:2214-8604
2214-7810
DOI:10.1016/j.addma.2021.102049