Interface Effect in Ir-Nb-Zr Alloy

Interface Effect in Ir-Nb-Zr Alloy

The mechanical properties of Ir-Nb alloy have been significantly enhanced by the addition of solute Zr, yet there has been no quantitative explanation for this improvement. To address this issue, we investigated it from the perspective of Zr segregation to the Ir/Ir<sub>3</sub>Nb interfa...

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Bibliographic Details
Main Authors: Jian-Gang Yao, Yong Jiang, Ming-Chun Zhao, Deng-Feng Yin
Format: Article
Language:English
Published: MDPI AG 2025-05-01
Series:Crystals
Subjects:
Ir-Nb-Zr alloys
Ir/L1<sub>2</sub>-Ir<sub>3</sub>Nb interface
solute segregation
first principle
Online Access:https://www.mdpi.com/2073-4352/15/6/519
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Summary:The mechanical properties of Ir-Nb alloy have been significantly enhanced by the addition of solute Zr, yet there has been no quantitative explanation for this improvement. To address this issue, we investigated it from the perspective of Zr segregation to the Ir/Ir<sub>3</sub>Nb interface. The atomic-scale microstructures of three interfaces, namely Ir (100)/Ir<sub>3</sub>Nb(100), Ir(110)/Ir<sub>3</sub>Nb(110), and Ir(111)/Ir<sub>3</sub>Nb(111), were elucidated, along with the precise calculation of their interface energies using an unconventional method. This compensates for the deficiencies of the inaccurate results in calculating the interface energies of earlier prediction. Solute Zr prefers to segregate to the Ir/Ir<sub>3</sub>Nb interface by occupying Nb sites on the Ir matrix side, thereby improving the interface adhesion to some extent. High strength of interface region contributes to enhance the mechanical properties of Ir-Nb alloy, which is in agreement with the experimental observation as reported.
ISSN:2073-4352

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