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Ultra-strong tungsten refractory high-entropy alloy via stepwise controllable coherent nanoprecipitations

Tong Li, Tianwei Liu, Shiteng Zhao, Yan Chen, Junhua Luan, Zengbao Jiao, Robert O. Ritchie, L.H. Dai

2023Nature Communications126 citationsDOIOpen Access PDF

Abstract

High-performance refractory alloys with ultrahigh strength and ductility are in demand for a wide range of critical applications, such as plasma-facing components. However, it remains challenging to increase the strength of these alloys without seriously compromising their tensile ductility. Here, we put forward a strategy to "defeat" this trade-off in tungsten refractory high-entropy alloys by stepwise controllable coherent nanoprecipitations (SCCPs). The coherent interfaces of SCCPs facilitate the dislocation transmission and relieve the stress concentrations that can lead to premature crack initiation. As a consequence, our alloy displays an ultrahigh strength of 2.15 GPa with a tensile ductility of 15% at ambient temperature, with a high yield strength of 1.05 GPa at 800 °C. The SCCPs design concept may afford a means to develop a wide range of ultrahigh-strength metallic materials by providing a pathway for alloy design.

Topics & Concepts

Materials scienceDuctility (Earth science)Ultimate tensile strengthAlloyTungstenHigh entropy alloysRefractory metalsRefractory (planetary science)Structural materialMetallurgyComposite materialCreepHigh Entropy Alloys StudiesHigh-Temperature Coating BehaviorsDiamond and Carbon-based Materials Research