Grain boundary self-diffusion in directionally solidified equiatomic Fe-Co alloy

Hiroyuki Nitta; Yoshiaki Iijima; Kazumi Tanaka; Yoshihiro Yamazaki; Chan Gyu Lee; Takashi Matsuzaki; Tadao Watanabe

doi:10.1016/j.msea.2004.05.056

Grain boundary self-diffusion in directionally solidified equiatomic Fe-Co alloy

Hiroyuki Nitta, Yoshiaki Iijima, Kazumi Tanaka, Yoshihiro Yamazaki, Chan Gyu Lee, Takashi Matsuzaki, Tadao Watanabe

Research output: Contribution to journal › Article › peer-review

7 Citations (Scopus)

Abstract

Grain boundary diffusivities of ⁵⁹Fe and ⁵⁷Co in a binary Fe-50 at.%Co alloy have been determined at a temperature range between 883 and 1123 K by serial sputter-microsectioning technique using specimen unidirectionally solidified at three different solidification rates of 12000, 60 and 32 mm/h. Above the order-disorder transformation temperature of 1003 K, the Arrhenius plots of the grain boundary diffusivities in the alloy solidified at three rates show straight lines. The diffusivities in the specimen with 32 mm/h are higher than those with 60 and 12000 mm/h. Below 1003 K, all the Arrhenius plots of the diffusivities show downward curvature remarkably owing to the atomic ordering. From the analysis of depth profiles, the atomic ordering gives large influence on the diffusion along subgrain boundaries rather than the diffusion along random grain boundaries.

Original language	English
Pages (from-to)	250-256
Number of pages	7
Journal	Materials Science and Engineering A
Volume	382
Issue number	1-2
DOIs	https://doi.org/10.1016/j.msea.2004.05.056
Publication status	Published - Sep 25 2004
Externally published	Yes

All Science Journal Classification (ASJC) codes

Materials Science(all)
Condensed Matter Physics
Mechanics of Materials
Mechanical Engineering

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title = "Grain boundary self-diffusion in directionally solidified equiatomic Fe-Co alloy",

abstract = "Grain boundary diffusivities of 59Fe and 57Co in a binary Fe-50 at.%Co alloy have been determined at a temperature range between 883 and 1123 K by serial sputter-microsectioning technique using specimen unidirectionally solidified at three different solidification rates of 12000, 60 and 32 mm/h. Above the order-disorder transformation temperature of 1003 K, the Arrhenius plots of the grain boundary diffusivities in the alloy solidified at three rates show straight lines. The diffusivities in the specimen with 32 mm/h are higher than those with 60 and 12000 mm/h. Below 1003 K, all the Arrhenius plots of the diffusivities show downward curvature remarkably owing to the atomic ordering. From the analysis of depth profiles, the atomic ordering gives large influence on the diffusion along subgrain boundaries rather than the diffusion along random grain boundaries.",

author = "Hiroyuki Nitta and Yoshiaki Iijima and Kazumi Tanaka and Yoshihiro Yamazaki and Lee, {Chan Gyu} and Takashi Matsuzaki and Tadao Watanabe",

year = "2004",

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AU - Nitta, Hiroyuki

AU - Iijima, Yoshiaki

AU - Tanaka, Kazumi

AU - Yamazaki, Yoshihiro

AU - Lee, Chan Gyu

AU - Matsuzaki, Takashi

AU - Watanabe, Tadao

PY - 2004/9/25

Y1 - 2004/9/25

N2 - Grain boundary diffusivities of 59Fe and 57Co in a binary Fe-50 at.%Co alloy have been determined at a temperature range between 883 and 1123 K by serial sputter-microsectioning technique using specimen unidirectionally solidified at three different solidification rates of 12000, 60 and 32 mm/h. Above the order-disorder transformation temperature of 1003 K, the Arrhenius plots of the grain boundary diffusivities in the alloy solidified at three rates show straight lines. The diffusivities in the specimen with 32 mm/h are higher than those with 60 and 12000 mm/h. Below 1003 K, all the Arrhenius plots of the diffusivities show downward curvature remarkably owing to the atomic ordering. From the analysis of depth profiles, the atomic ordering gives large influence on the diffusion along subgrain boundaries rather than the diffusion along random grain boundaries.

AB - Grain boundary diffusivities of 59Fe and 57Co in a binary Fe-50 at.%Co alloy have been determined at a temperature range between 883 and 1123 K by serial sputter-microsectioning technique using specimen unidirectionally solidified at three different solidification rates of 12000, 60 and 32 mm/h. Above the order-disorder transformation temperature of 1003 K, the Arrhenius plots of the grain boundary diffusivities in the alloy solidified at three rates show straight lines. The diffusivities in the specimen with 32 mm/h are higher than those with 60 and 12000 mm/h. Below 1003 K, all the Arrhenius plots of the diffusivities show downward curvature remarkably owing to the atomic ordering. From the analysis of depth profiles, the atomic ordering gives large influence on the diffusion along subgrain boundaries rather than the diffusion along random grain boundaries.

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