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Reliability comparisons between additively manufactured and conventional SiC–Si ceramic composites

Pawan Chaugule, Wenchao Du, Rakesh R. Kamath, Bipul Barua, Mark Messner, Dileep Singh

2024Journal of the American Ceramic Society17 citationsDOIOpen Access PDF

Abstract

Abstract An additively manufactured reaction‐bonded silicon carbide ceramic composite is fabricated using a bimodal powder feedstock and the binder‐jetting printing technique. On fabricating, the ceramic is investigated to report its composition, mechanical, and thermal properties at room temperature and high temperatures (up to 750). The ceramic has a density of 2.76 g/cc, and shows a hardness of 21.74 GPa, and a flexure strength of 207.5 MPa at room temperature. The mechanical property of flexure strength is used to estimate its failure probability under applied stress, using a Weibull distribution. The mechanical properties and failure probabilities are compared with those of conventionally fabricated reaction‐bonded silicon carbide ceramics reported in the literature. These ceramics were fabricated using methods such as slip‐casting, compacting, and tape‐casting. The comparison is used to elucidate the advantages and areas of improvement of the present additive manufacturing technique for reaction‐bonded ceramics.

Topics & Concepts

Materials scienceCeramicComposite materialSilicon carbideWeibull distributionTape castingComposite numberFlexural strengthWeibull modulusSlip (aerodynamics)CastingRaw materialThermodynamicsChemistryPhysicsStatisticsOrganic chemistryMathematicsAdvanced ceramic materials synthesisAdditive Manufacturing and 3D Printing TechnologiesAdvanced materials and composites
Reliability comparisons between additively manufactured and conventional SiC–Si ceramic composites | Litcius