Archive/Microstructural Evolution and Phase Formation in Nanocrystalline Ti0.8V0.2C Powder During High-Energy Mechanical Alloying
Microstructural Evolution and Phase Formation in Nanocrystalline Ti0.8V0.2C Powder During High-Energy Mechanical Alloying
Mohsen Mhadhbi, Baris Avar, Abdulrahman Mallah et al.
14 de julio de 2026
en

Abstract

A nanostructured Ti0.8V0.2C solid solution carbide was successfully synthesized via high-energy mechanical alloying (MA) of elemental Ti, V, and C powders for 20 h in a planetary ball mill under argon atmosphere. Phase evolution and microstructural transformation were tracked using XRD, SEM/EDX, and TEM. Progressive alloying resulted in continuous refinement of the carbide structure, where the crystallite size was reduced to ~11–15 nm and the lattice microstrain increased up to 0.93 % after 20 h of MA. TEM observations confirmed the formation of highly dispersed nanocrystalline Ti0.8V0.2C solid-solution carbide particles with sizes of 15–20 nm. This work demonstrates the effectiveness of MA in generating a novel Ti–V-based nanocarbide solid solution and highlights the critical role of milling duration in tailoring structural refinement and defect accumulation at the nanoscale.

IPC Classification

B60H01

Keywords

microstructuralevolutionphaseformationnanocrystallinepowderduringhigh-energymechanicalalloyingcrystalsnanostructuredsolidsolutioncarbidesuccessfullysynthesizedelementalpowdersplanetaryballmillargonatmosphere
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