npj Computational Materials (Jan 2021)

Theoretical prediction of high melting temperature for a Mo–Ru–Ta–W HCP multiprincipal element alloy

  • Qi-Jun Hong,
  • Jan Schroers,
  • Douglas Hofmann,
  • Stefano Curtarolo,
  • Mark Asta,
  • Axel van de Walle

DOI
https://doi.org/10.1038/s41524-020-00473-6
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 4

Abstract

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Abstract While rhenium is an ideal material for rapid thermal cycling applications under high temperatures, such as rocket engine nozzles, its high cost limits its widespread use and prompts an exploration of viable cost-effective substitutes. In prior work, we identified a promising pool of candidate substitute alloys consisting of Mo, Ru, Ta, and W. In this work we demonstrate, based on density functional theory melting temperature calculations, that one of the candidates, Mo0.292Ru0.555Ta0.031W0.122, exhibits a high melting temperature (around 2626 K), thus supporting its use in high-temperature applications.