Solute Segregation to Grain Boundaries in Al: A First-Principles Evaluation

被引:0
作者
Jiawei Tang [1 ,2 ]
Yiren Wang [1 ,2 ]
Yong Jiang [1 ,2 ]
Jiangang Yao [2 ]
Hao Zhang [3 ]
机构
[1] National Key Laboratory for Powder Metallurgy,School of Materials Science and Engineering,Central South University
[2] School of Materials Science and Engineering,Yantai Nanshan University
[3] Jiangsu Haoran Spray Forming Alloy Co,Ltd
来源
ActaMetallurgicaSinica(EnglishLetters) | 2022年 / 35卷 / 09期
关键词
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中图分类号
TG146.21 [];
学科分类号
080502 ;
摘要
Solute-induced grain boundary(GB) strengthening is eff ective in improving the toughness and tensile strength of polycrystalline alloys. In this work, GB segregation behaviors of solute elements in Al alloys and their potential eff ects on GB binding have been systematically investigated from fi rst-principles energetics. The low-energy Σ3(111) and Σ11(113) are immune to vacancy segregation, while high-energy Al GBs, such as Σ13(320), Σ9(221), Σ5(210), and Σ5(310), can attract both vacancies and solutes. Under-sized elements(Ni, Fe, Co, Cu) and similar-sized elements(Si, Zn, Ag, and Ti) prefer interstitial or vacancy sites at the GB interface, while over-sized elements(Mg, Zr, Sc, Er) tend to substitute Al or vacancy-neighboring sites at the GB interface. Segregated vacancies weaken GBs. Under-sized Ni, Co, Cu, similar-sized Ti, and over-sized Zr, Er, can directly enhance Al GBs, while similar-sized Ag and over-sized Mg reduce the GB binding strength. Solute strengthening or weakening eff ects tend to be always mitigated, more or less, by GB-segregated vacancies.
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页码:1572 / 1582
页数:11
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