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Low-temperature reactive spark plasma sintering of dense SiC-Ti3SiC2 ceramics

К. Б. Подболотов, Dmitry Moskovskikh, Mohammad Abedi, Veronika Suvorova, А. А. Непапушев, Kostya Ostrikov, Alexander Khort

2022Journal of the European Ceramic Society21 citationsDOIOpen Access PDF

Abstract

SiC-based ceramics are of great interest for various advanced applications. However, its fabrication requires high-temperature treatment at ∼2000 – 2100 °С. In this study, we developed an approach based on low-temperature reactive spark plasma sintering to produce dense SiC-based ceramics with superior mechanical properties. It was found that an SPS temperature of 1600 °C and introduction of 10 – 15 wt% of mechanically activated non-oxide Ti–Si–C additive is required to manufacture ceramics with a theoretical density of higher than 90%. Nonetheless, employing 5 – 15 wt% of the additive mixture and an SPS temperature of 1700 °C, the maximum density of ∼ 98% was achieved. The controlled formation and decomposition of the in-situ Ti3SiC2 MAX phase enables the fabrication of the engineering ceramics with enhanced compressive strength (550 MPa), elastic modulus (485 GPa), and microhardness (32 GPa), which are comparable to the best-reported SiC ceramics. The study has a significant potential for practical application in the production of advanced SiC-based ceramics for various purposes and could be used for further understanding and development of the high-temperature sintering methods.

Topics & Concepts

Spark plasma sinteringMaterials scienceCeramicFabricationSinteringComposite materialIndentation hardnessPlasmaCompressive strengthModulusPhase (matter)Elastic modulusMicrostructureMedicineQuantum mechanicsAlternative medicineOrganic chemistryPhysicsPathologyChemistryMXene and MAX Phase MaterialsAdvanced ceramic materials synthesisAdvanced materials and composites
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