J.S. Lee scite author profile

Co-base superalloys have been applied in the stationary compoents of gas turbine owing to their excellent high temperaure properties. The stationary Co-base alloy components are generally manufactured by casting. Solidification behavior of the alloy is an important factor in the selection of casting parameters. In the present study, solidification microstructure and carbide formation behaviors were studied by directional solidification. Directional solidification experiments were carried out at the solidification rates of 0.5 ~ 150µm/s with the Co-base superalloy ECY768. Between the dendrites just below the final freezing temperature, MC carbide and M23C6 carbide were found. It was identified that the script or blocky carbides were Ta or W-rich MC carbide, and the lamellar carbides were Cr-rich M23C6 eutectic carbides. The solid/liquid interface morphology clearly showed that freezing of the Cr-rich eutectic carbide occurred just after the script type MC carbide.

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Microhomogeneity and Sintering of W-Cu Composite Powders Produced by Hydrogen Reduction

Lee

Kim

1992

SSP

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Microstructural Investigation of Grain Boundary Diffusion and Recrystallization in W-Cu Composites

Lee

Kim

Lee

1993

MSF

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Equilibrium and Metastable Eutectics Near the Ni<sub>3</sub>Al Composition

Lee

et al. 2005

MSF

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Ni3Al has been considerable research area due to its high temperature behavior increasing strength with increasing temperature. A series of directional solidification studies showed that the eutectic occurred between g’/b and the metastable eutectic of g/b forms under slightly different conditions, however, it is not well established whether the eutectic is composed of g/g‘, g’/b, or g/b . In order to understand solidification behavior of the eutectic structure, directional solidification experiments have been carried out with solidification rate near the Ni3Al composition in this study. The effects of the solidification rate and composition on formation of the equilibrium and metastable eutectics have been discussed. The (g’+g) coupled phase was also shown to form with the eutectic at the solid/liquid interface.

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J.S. Lee

Directional Solidification Microstructure Control in CM247LC Superalloy

The Solidification Microstructure and Carbide Formation Behaviors in the Cobalt-Based Superalloy ECY768

Microhomogeneity and Sintering of W-Cu Composite Powders Produced by Hydrogen Reduction

Microstructural Investigation of Grain Boundary Diffusion and Recrystallization in W-Cu Composites

Equilibrium and Metastable Eutectics Near the Ni<sub>3</sub>Al Composition

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