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Ultra‐high strength medium‐entropy (Ti,Zr,Ta)C ceramics at 1800°C by consolidating a core‐shell structured powder

Qingqing Yang, Xin‐Gang Wang, Xin‐Gang Wang, Ping Wu, Xiao‐Fei Wang, Xiao‐Fei Wang, Cheng Zhang, Guo‐Jun Zhang, Danyu Jiang

2021Journal of the American Ceramic Society21 citationsDOI

Abstract

Abstract We report for the first time the synthesis of a core‐shell structured composite powder with a core of Zr(Ti,Ta)C and a shell of Ti,Ta(Zr)C at 1700°C and investigate the formation mechanism for the core‐shell structure. The medium‐entropy (Ti,Zr,Ta)C ceramics with fine grains (1.1 ± 0.4 μm) and relative density of 94.8% was prepared by hot‐pressing at 2100°C. The flexural strength of (Ti,Zr,Ta)C at 1000°C (493 ± 21 MPa) was close to the room temperature (511 ± 52 MPa). As the temperature increased from 1600°C to 1800°C, the flexural strength was increased significantly, with an ultra‐high flexural strength of 725 ± 32 MPa at 1800°C. The existence of the core‐shell structure in the powder suppressed the grain growth due to the sluggish diffusion effect. The ultra‐high strength of (Ti,Zr,Ta)C ceramics was attributed to its fine microstructures, high fracture toughness, and the reinforced the grain boundary strength.

Topics & Concepts

Flexural strengthMaterials scienceMicrostructureCeramicComposite materialFracture toughnessHot pressingComposite numberGrain boundaryMetallurgyAdvanced materials and compositesHigh Entropy Alloys StudiesMetal and Thin Film Mechanics
Ultra‐high strength medium‐entropy (Ti,Zr,Ta)C ceramics at 1800°C by consolidating a core‐shell structured powder | Litcius