Litcius/Paper detail

Mechanisms responsible for enhancing low‐temperature oxidation resistance of nonstoichiometric (Zr,Ti)C

Huilin Lun, Junhao Yuan, Yi Zeng, Xiang Xiong, Qing Wang, Ziming Ye

2022Journal of the American Ceramic Society15 citationsDOI

Abstract

Abstract A series of (Zr,Ti)C x ( x = 0.7–1.0) samples were fabricated by a modified spark plasma sintering apparatus to investigate the effects of carbon concentration and Ti substitutions on the oxidation behavior. Crushed powders of (Zr,Ti)C x were oxidized in lab air (N 2 –20‐vol.% O 2 ) from room temperature to 900°C. The results indicated that Zr 0.8 Ti 0.2 C 0.8 , with a nominal carbon concentration x = 0.8, displayed good oxidation resistance, which was attributed to the formation of dense t ‐(Zr,Ti)O 2 oxide solid solution. During the oxidation of (Zr,Ti)C x , Ti substitutions for Zr enhanced the outward diffusion of carbon, enabling a uniform carbon layer and a Zr–Ti–C–O layer on the surface of carbides. The formed carbon layer improved the oxidation resistance of (Zr,Ti)C x below 550°C, where carbon is relatively oxidation resistant. Increasing the Ti concentration was found to enhance the oxidation resistance of (Zr,Ti)C x with an increased oxidation onset temperature (672 ± 2°C for Zr 0.8 Ti 0.2 C 0.8 ).

Topics & Concepts

Spark plasma sinteringMaterials scienceCarbideCarbon fibersOxideSinteringDiffusionLayer (electronics)TitaniumMetallurgyZirconiumAnalytical Chemistry (journal)Chemical engineeringNuclear chemistryChemistryNanotechnologyComposite numberComposite materialChromatographyEngineeringThermodynamicsPhysicsAdvanced materials and compositesAdvanced ceramic materials synthesisMetal and Thin Film Mechanics