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Solidification pathways and phase equilibria in the Mo–Ti–C ternary system

Shuntaro Ida, Nobuaki Sekido, Kyosuke Yoshimi

2020High Temperature Materials and Processes20 citationsDOIOpen Access PDF

Abstract

Abstract The liquidus surface projection and isothermal section at 1,800°C in the Mo–Ti–C ternary system are examined using arc-melted alloys. A ternary transition peritectic reaction (L + Mo 2 C → Mo + TiC) takes place during solidification, which is apparently different from the ternary eutectic reaction (L → Mo + TiC + Mo 2 C) observed in a previous report. Since the composition of the eutectic reaction (L → Mo + TiC) shifts toward the Mo–Ti binary line with increasing Ti concentration, the volume fraction of the Mo phase and the interlamellar spacing of the Mo and TiC phases increase in the eutectic microstructure. At 1,800°C, the TiC phase in equilibrium with the Mo phase can contain more than 28 at% Mo and a Mo/TiC/Mo 2 C three-phase region exists at around Mo–15Ti–10C.

Topics & Concepts

LiquidusEutectic systemIsothermal processMaterials scienceTernary operationPhase (matter)Ternary numeral systemMicrostructureMetallurgyThermodynamicsChemistryAlloyOrganic chemistryProgramming languagePhysicsComputer scienceAdvanced materials and compositesIntermetallics and Advanced Alloy PropertiesMXene and MAX Phase Materials
Solidification pathways and phase equilibria in the Mo–Ti–C ternary system | Litcius