O. U. Tukac scite author profile

In the quest of new materials that can withstand severe irradiation and mechanical extremes for advanced applications (e.g. fission & fusion reactors, space applications, etc.), design, prediction and control of advanced materials beyond current material designs become paramount. Here, through a combined experimental and simulation methodology, we design a nanocrystalline refractory high entropy alloy (RHEA) system. Compositions assessed under extreme environments and in situ electron-microscopy reveal both high thermal stability and radiation resistance. We observe grain refinement under heavy ion irradiation and resistance to dual-beam irradiation and helium implantation in the form of low defect generation and evolution, as well as no detectable grain growth. The experimental and modeling results—showing a good agreement—can be applied to design and rapidly assess other alloys subjected to extreme environmental conditions.

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Design of oxygen-doped TiZrHfNbTa refractory high entropy alloys with enhanced strength and ductility

Iroc¹,

Tukac²,

Tanrisevdi³

et al. 2022

Materials & Design

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Author Correction: A quinary WTaCrVHf nanocrystalline refractory high-entropy alloy withholding extreme irradiation environments

El-Atwani

Tunes

et al. 2023

Nat Commun

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O. U. Tukac

Development and thermal stability of Cr10Mo25Ta25Ti15V25 refractory high entropy alloys

A quinary WTaCrVHf nanocrystalline refractory high-entropy alloy withholding extreme irradiation environments

Design of oxygen-doped TiZrHfNbTa refractory high entropy alloys with enhanced strength and ductility

Author Correction: A quinary WTaCrVHf nanocrystalline refractory high-entropy alloy withholding extreme irradiation environments

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