J. H. Lee scite author profile

The effect of fluid flow on eutectic microstructure is systematically examined in Al-Cu alloys of compositions varying from 19.5 to 45.0 wt pct Cu. It is shown that significantly different fluid-flow effects are present in hypo-and hypereutectic alloys, since the modes of convection are different in these two cases. In hypoeutectic alloys, the rejected solute is copper, which is heavier than aluminum, and fluid flow gives rise to radial solute segregation in cylindrical samples. In hypereutectic alloys, a lighter aluminum is rejected that causes a double diffusive convection and gives rise to macrosegregation. These composition variations are shown to produce nonuniform microstructures that vary either radially (in hypoeutectic alloys) or axially (in hypereutectic alloys) and can give rise to a single phase-toeutectic, lamellar-to-rod eutectic, or rod-to-lamellar eutectic transition in a given sample. Composition measurements are carried out to characterize solute segregation due to fluid flow. The fluid-flow effect on eutectic spacing in eutectic or near-eutectic alloys is found to be very small, whereas it increases the eutectic spacing in hypoeutectic alloys for a given local composition and it can increase or decrease the spacing in hypereutectic alloys, depending on the microstructure and solidification fraction. Theoretical models, based on diffusive growth, are modified to predict the spatio-temporal variation in eutectic microstructure caused by fluid flow.

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A Comparative Study of the γ/γ′ Eutectic Evolution During the Solidification of Ni-Base Superalloys

Seo

Lee

Yoo

et al. 2011

Metall Mater Trans A

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The evolution of c/c¢ eutectic during the solidification of Ni-base superalloys CMSX-10 and CMSX-4 was investigated over a wide range of cooling rates. The microsegregation behavior during solidification was also quantitatively examined to clarify the influence of elemental segregation on the evolution of c/c¢ eutectic. In the cooling rate ranges investigated (0.9 to 138.4 K/min (0.9 to 138.4°C/min)), the c/c¢ eutectic fraction in CMSX-10 was found to be more than 2 times higher than that in CMSX-4 at a given cooling rate. However, the dependence of the c/c¢ eutectic fraction on the cooling rate in both alloys showed a similar tendency; i.e., the c/c¢ eutectic fraction increased with increasing the cooling rate and then exhibited a maximum plateau at and above the certain critical cooling rate in both alloys. This critical cooling rate was found to be dependent on the alloy composition and was estimated to be about 12 K/min (12°C/min) and 25 K/min (25°C/min) for CMSX-10 and CMSX-4, respectively. The calculated solid compositions based on the modified Scheil model revealed that even a small compositional difference of total c¢ forming elements in the initial composition of the alloy can play a significant role in the as-cast eutectic fraction during the solidification of Ni-base superalloys. The evolution of the c/c¢ eutectic fraction with respect to the cooling rate could be rationalized by taking into account the effects of back-diffusion in solid and dendrite arm coarsening on decreasing the extent of microsegregation.

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Effect of V addition on hardness and electrical conductivity in Cu-Ni-Si alloys

Han

Lee

et al. 2013

Met. Mater. Int.

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Effects of A-Site Nonstoichiometry on Dielectric and Piezoelectric Properties of Pb-Free (Na_0.53+xK_0.47)(Nb_0.55Ta_0.45)O₃ Ceramics

Lee

Ryu

et al. 2012

Integrated Ferroelectrics

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J. H. Lee

Diffusion-coefficient measurements in liquid metallic alloys

The effect of fluid flow on eutectic growth

A Comparative Study of the γ/γ′ Eutectic Evolution During the Solidification of Ni-Base Superalloys

Effect of V addition on hardness and electrical conductivity in Cu-Ni-Si alloys

Effects of A-Site Nonstoichiometry on Dielectric and Piezoelectric Properties of Pb-Free (Na_0.53+xK_0.47)(Nb_0.55Ta_0.45)O₃ Ceramics

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J. H. Lee

Diffusion-coefficient measurements in liquid metallic alloys

The effect of fluid flow on eutectic growth

A Comparative Study of the γ/γ′ Eutectic Evolution During the Solidification of Ni-Base Superalloys

Effect of V addition on hardness and electrical conductivity in Cu-Ni-Si alloys

Effects of A-Site Nonstoichiometry on Dielectric and Piezoelectric Properties of Pb-Free (Na0.53+x K0.47)(Nb0.55Ta0.45)O3 Ceramics

Contact Info

Product

Resources

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Effects of A-Site Nonstoichiometry on Dielectric and Piezoelectric Properties of Pb-Free (Na_0.53+xK_0.47)(Nb_0.55Ta_0.45)O₃ Ceramics