3D Printing of Ceramic Elements with Q-Surface Geometry for the Fabrication of Protective Barrier

Semen V. Diachenko; Andrey S. Dolgin; Nikolai A. Khristyuk; Lev A. Lebedev; Lubov A. Nefedova; Sergey B. Pavlov; Kirill F. Merenkov; Vladimir I. Ivkov; Alla N. Dmitrieva

Journal ArticleOPEN ACCESS

3D Printing of Ceramic Elements with Q-Surface Geometry for the Fabrication of Protective Barrier

Ceramics (2023) 6(2) 912-921

DOI: 10.3390/ceramics6020053

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Abstract

The work proposes the use of aluminum oxide-based ceramic objects with a TPMS-Q-surface geometry as elements of armor structures. The samples were produced using the SLA-DLP 3D printing method. The main properties of the sample were determined using physical-chemical analysis methods: apparent density ρap = 3.6 g/cm3, open porosity Popn = 8.5%, microhardness Hµ = 15.3 GPa, water absorption W = 2.4%, elastic modulus E = 405 GPa. The Stiglich criterion M = 1.72 EPa2·m3/kg, and the Shevchenko criterion K = 0.8.

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Diachenko, S. V., Dolgin, A. S., Khristyuk, N. A., Lebedev, L. A., Nefedova, L. A., Pavlov, S. B., … Dmitrieva, A. N. (2023). 3D Printing of Ceramic Elements with Q-Surface Geometry for the Fabrication of Protective Barrier. Ceramics, 6(2), 912–921. https://doi.org/10.3390/ceramics6020053

3D Printing of Ceramic Elements with Q-Surface Geometry for the Fabrication of Protective Barrier

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