Phase diagram of the Fe –Co –Ti system at 1073 K
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Takao Kozakai
,
Mitsuhiro Kobayashi
Abstract
The phase equilibria in the Fe –Co –Ti system were investigated at 1073 K by means of X-ray diffraction, transmission electron microscopy, and in situ energy-dispersive spectroscopy. Four three-phase and eleven two-phase microstructures, consisting of disordered solid solutions, B2 ordered intermetallics, Laves phases, and L12 ordered phase, were observed. On the basis of the experimental results and the chemical analyses of the coexisting phases, an isothermal section at 1073 K is proposed, which is similar to the section at 1173 K reported in the literature.
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© 2002 Carl Hanser Verlag, München
Articles in the same Issue
- Frontmatter
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- Strain rate dependence of the deformation mechanisms in a fully lamellar γ-TiAl-based alloy
- Experimental and thermodynamic assessment of the Fe –Gd–Zr system
- Phase diagram of the Fe –Co –Ti system at 1073 K
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- Characterization of intermetallic compounds formed during the interfacial reactions of liquid Sn and Sn– 58Bi solders with Ni substrates
- Notifications/Mitteilungen
- Personal/Personelles
Articles in the same Issue
- Frontmatter
- Articles/Aufsätze
- Strain rate dependence of the deformation mechanisms in a fully lamellar γ-TiAl-based alloy
- Experimental and thermodynamic assessment of the Fe –Gd–Zr system
- Phase diagram of the Fe –Co –Ti system at 1073 K
- Copper concentration inside Guinier-Preston I zones formed in an Al –Cu alloy
- Identification of precipitates in 6013 aluminum alloy (Al –Mg –Si –Cu)
- Redistribution of phosphorus and carbon in steel weldments
- Microstructure and compressive properties of in situ synthesized TiC/Ti composites
- Effect of Al on the glass forming ability of Zr–Ni –Cu–Al alloys
- Fcc-hcp transformation-related internal friction in Fe –Mn alloys
- High-temperature stress and strain partitioning in duplex stainless steel
- Load sequence effects in the high cycle fatigue of two ferrite-pearlite microalloyed steels
- Characterization of intermetallic compounds formed during the interfacial reactions of liquid Sn and Sn– 58Bi solders with Ni substrates
- Notifications/Mitteilungen
- Personal/Personelles
