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800 <sup>o</sup> C-stable D0 <sub>22</sub> superlattice in a NiCrFe-based medium entropy alloy

Mei Ai Lin, Jianlin Lu, Yiming Chen, Zhongsheng Yang, Xin Liu, Kaiwei Zhang, Zhijun Wang, Junjie Li, Jincheng Wang, Feng He

2024Materials Research Letters14 citationsDOIOpen Access PDF

Abstract

The metastable-stable transition and rapid coarsening of metastable D022 phase remains its Achilles hell, restricting the application of D022-strengthened alloys at service temperatures higher than 650°C. Hence, it is crucial to improve thermal stability of D022 phase. In this work, we report an 800°C-stable D022-Ni3(W0.24Ti0.38Ta0.19Nb0.19) superlattice in the Ni58Cr23Fe10W5Ti2Ta1Nb1 MEA. Experimental results and theoretical analysis showed that the exceptional thermal stability is due to Nb-sublattice occupying elements, low diffusivity of W, and extremely small lattice misfit between the D022 phase and FCC matrix. These findings shed lights on developing high-performance D022-hardened alloys capable of operating at temperatures above 650°C.

Topics & Concepts

SuperlatticeMaterials scienceMetastabilityAlloyThermal stabilityThermal diffusivityCondensed matter physicsPhase diagramCrystallographyPhase (matter)ThermodynamicsMetallurgyOptoelectronicsChemical engineeringChemistryPhysicsEngineeringOrganic chemistryHigh Entropy Alloys StudiesHigh-Temperature Coating BehaviorsAdditive Manufacturing Materials and Processes