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A novel method of strong and tough Si <sub>3</sub> N <sub>4</sub> ceramic from the particle‐stabilized foam

Yongjiao Li, Minghao Yang, Youfei Zhang, Zun Xia, Guolong Sang, Xiuhui Wang, Jinlong Yang

2023Journal of the American Ceramic Society16 citationsDOIOpen Access PDF

Abstract

Abstract The brittleness of Si 3 N 4 ceramics has always limited its wide application. In this paper, Si 3 N 4 ceramics were prepared based on foam. Combining the unique honeycomb structure of the ceramic foams and the self‐toughening mechanism of Si 3 N 4 , the strengthening and toughening of Si 3 N 4 ceramics can be further achieved by adjusting the microstructure of Si 3 N 4 ceramic foams. The powder particles are self‐assembled by particle‐stabilized foaming to form a foam body with a honeycomb structure. It was pretreated at different temperatures (1450–1750°C). The microstructure evolution of foamed ceramics at different pretreatment temperatures and the conversion rate of α‐Si 3 N 4 to β‐Si 3 N 4 at different pretreatment temperatures were explored. Then the foamed ceramics with different microstructures are hot‐press sintered to prepare Si 3 N 4 dense ceramics. The effects of different microstructures of foamed ceramics on the strength and toughness of Si 3 N 4 ceramics were analyzed. The experimental results show that the relative density of Si 3 N 4 ceramics prepared at a particle pretreatment temperature of 1500°C is 97.8%, and its flexural strength and fracture toughness are relatively the highest, which are 1089 ± 60 MPa and 12.9 ± 1.3 MPa m 1/2 , respectively. Compared with the traditional powder hot‐pressing sintering, the improvement is 21% and 33%, respectively. It is shown that this method of preparing Si 3 N 4 ceramics based on foam has the potential to strengthen and toughen Si 3 N 4 ceramics.

Topics & Concepts

Materials scienceMicrostructureCeramicComposite materialRelative densityFracture toughnessSinteringHot pressingFlexural strengthBrittlenessHoneycombParticle (ecology)Particle sizeToughnessHoneycomb structureChemical engineeringOceanographyGeologyEngineeringAdvanced ceramic materials synthesisAdvanced materials and compositesMXene and MAX Phase Materials
A novel method of strong and tough Si <sub>3</sub> N <sub>4</sub> ceramic from the particle‐stabilized foam | Litcius