Fracture Toughness of Fe-Zn Intermetallic Compound Layer

The Fe-Zn intermetallic compounds (IMC) layers composed of δp, δk, and Γ phases were fabricated using two different kinds of Fe/Zn diffusion couple (DC), and the fracture toughness of the constituent phases was estimated from the toughness of the IMC layers. In the DCs with sufficient Zn supply, the...

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Bibliographic Details
Published inTetsu-to-Hagane Vol. 100; no. 3; pp. 383 - 389
Main Authors Inoue, Junya, Miwa, Satoshi, Koseki, Toshihiko
Format Journal Article
LanguageJapanese
Published The Iron and Steel Institute of Japan 2014
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Summary:The Fe-Zn intermetallic compounds (IMC) layers composed of δp, δk, and Γ phases were fabricated using two different kinds of Fe/Zn diffusion couple (DC), and the fracture toughness of the constituent phases was estimated from the toughness of the IMC layers. In the DCs with sufficient Zn supply, the IMC layers were mainly composed of δp phase after isothermal holding at 450-600 °C for 60 s, while in the DCs with limited Zn supply, the IMC layers were composed of δp, δk, and Γ phases at the early stage of isothermal holding, which was later dominated by Γ phase with further isothermal holding. The average grain size of the IMC phases was found to increase with increased holding temperature. From the comparisons between the IMC layers composed mainly by either δp or Γ phases, toughness of Γ phase was found inferior to that of δp phase. In addition, it was demonstrated that the toughness of δp and Γ was found to increase with decreased average grain size. Whereas, from the results using the multi-phase IMC layers, the toughness of δk phase was found almost equivalent to that of Γ phase.
ISSN:0021-1575
1883-2954
DOI:10.2355/tetsutohagane.100.383