Structure and Properties of Spark Plasma Sintered SiC Ceramics with Oxide Additives

Zhambakin D. Zhilkashinova A. Abilev M. Łatka L. Pavlov A. Tuyakbaev B. Zhilkashinova A.
July 2023 Multidisciplinary Digital Publishing Institute (MDPI)

Crystals
2023 #13 Issue 7

This article describes spark plasma sintering of ceramics based on silicon carbide with nanoadditives, as follows: MnO_nano 5.5 wt. % + Al₂O_3nano 2.0 wt. % + SiC_nm (37–57 wt. %) + SiC_µm (31–51 wt. %) + SiO_2µm 4.5 wt. %. Sintering was carried out at 2000 °C. The diffraction pattern of the analyzed sample showed the presence of silicon carbide with a hexagonal crystal lattice. Residual amounts of rhombohedral SiC, α-Fe, and a solid solution of silicon in iron were also found. The method of thermogravimetric analysis established the change in mass, heat flow, temperature of the samples, and the change in the partial pressures of gases during the experiment. Samples obtained by SPS show a higher density of the material at the level of 3.3 g/cm³, average mechanical strength of 454 MPa, and microhardness of 35 GPa, compared with samples obtained by liquid-phase sintering. The SPS method also made it possible to obtain materials with a higher density (by 8%) and practically no significant crystal growth compared to samples obtained by liquid phase sintering. The results of the study facilitate the achievement of a combination of new approaches to the design of compositions and the technology of manufacturing SiC ceramics, which significantly expands their areas of application.

eutectic additives , nanoparticles , SiC ceramics , silicon carbide , spark plasma sintering

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Department of Analytical, Colloid Chemistry and Technology of Rare Elements, Al-Farabi Kazakh National University, 71 Al-Farabi Avenue, Almaty, 050040, Kazakhstan
National Research Laboratory for Collective Use, Sarsen Amanzholov East Kazakhstan University, 34 Tridtsatoy Gvardeiskoy Divizii Street, Ust-Kamenogorsk, 070002, Kazakhstan
Faculty of Mechanical Engineering, Wroclaw University of Science and Technology, 5 Lukasiewicza Street, Wroclaw, 50-371, Poland

Department of Analytical
National Research Laboratory for Collective Use
Faculty of Mechanical Engineering

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