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Controlling microstructure and mechanical properties of Ti-V-Cr-Nb-Ta refractory high entropy alloys through heat treatments

Junliang Liu, Robert James Scales, Bo-Shiuan Li, Michael Goode, B. Young, Jianan Hu, A.J. Wilkinson, David E.J. Armstrong

2022Journal of Alloys and Compounds27 citationsDOIOpen Access PDF

Abstract

In this study, we have investigated the microstructure and mechanical properties of two refractory high entropy alloys (RHEAs), Ti-V-Cr5-Nb-Ta and Ti-V-Cr-Nb-Ta, in their as-cast and heat-treated conditions. Both alloys show almost single-phase BCC structure, while different size and volume fraction of secondary phases were formed after homogenisation heat treatment. The major secondary phase was indexed as a complex C15 Laves structure with a composition of (Ti, Ta)(V, Cr, Nb)2. The nanoindentation mapping indicates C15 Laves phase is very hard and brittle, performing a homogenisation heat treatment leads to an improved hardness in both alloys. The correlations between hardness changes and microstructural evolutions after homogenisation heat treatment are also discussed.

Topics & Concepts

Materials scienceMicrostructureLaves phaseNanoindentationVolume fractionHigh entropy alloysMetallurgyBrittlenessRefractory (planetary science)Refractory metalsIntermetallicComposite materialAlloyHigh Entropy Alloys StudiesAdvanced materials and compositesHigh-Temperature Coating Behaviors
Controlling microstructure and mechanical properties of Ti-V-Cr-Nb-Ta refractory high entropy alloys through heat treatments | Litcius