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Boron diffusion in bcc-Fe studied by first-principles calculations

Boron diffusion in bcc-Fe studied by first-principles calculations
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摘要 The diffusion mechanism of boron in bcc-Fe has been studied by first-principles calculations. The diffusion coefficients of the interstitial mechanism, the B-monovacancy complex mechanism, and the B-divacancy complex mechanism have been calculated. The calculated diffusion coefficient of the interstitial mechanism is DO = 1.05 x l0-7 exp (-0.75 eV/kT) m2. s-1, while the diffusion coefficients of the B-monovacancy and the B-divacancy complex mechanisms are D1 =1.22 x 10-6fl exp (-2.27 eV/kT) mE. s-1 and D2 - 8.36 x 10-6 exp (-4.81 eV/kT) m2. s-l, re- spectively. The results indicate that the dominant diffusion mechanism in bcc-Fe is the interstitial mechanism through an octahedral interstitial site instead of the complex mechanism. The calculated diffusion coefficient is in accordance with the reported experiment results measured in Fe-3%Si-B alloy (bcc structure). Since the non-equilibrium segregation of boron is based on the diffusion of the complexes as suggested by the theory, our calculation reasonably explains why the non-equilibrium segregation of boron is not observed in bcc-Fe in experiments. The diffusion mechanism of boron in bcc-Fe has been studied by first-principles calculations. The diffusion coefficients of the interstitial mechanism, the B-monovacancy complex mechanism, and the B-divacancy complex mechanism have been calculated. The calculated diffusion coefficient of the interstitial mechanism is DO = 1.05 x l0-7 exp (-0.75 eV/kT) m2. s-1, while the diffusion coefficients of the B-monovacancy and the B-divacancy complex mechanisms are D1 =1.22 x 10-6fl exp (-2.27 eV/kT) mE. s-1 and D2 - 8.36 x 10-6 exp (-4.81 eV/kT) m2. s-l, re- spectively. The results indicate that the dominant diffusion mechanism in bcc-Fe is the interstitial mechanism through an octahedral interstitial site instead of the complex mechanism. The calculated diffusion coefficient is in accordance with the reported experiment results measured in Fe-3%Si-B alloy (bcc structure). Since the non-equilibrium segregation of boron is based on the diffusion of the complexes as suggested by the theory, our calculation reasonably explains why the non-equilibrium segregation of boron is not observed in bcc-Fe in experiments.
出处 《Chinese Physics B》 SCIE EI CAS CSCD 2016年第3期307-313,共7页 中国物理B(英文版)
基金 Project supported by the National Natural Science Foundation of China(Grant No.51276016) the National Basic Research Program of China(Grant No.2012CB720406)
关键词 BORON diffusion coefficient DIVACANCY first-principles calculation boron, diffusion coefficient, divacancy, first-principles calculation
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