Vol.61, No.2, 126 ~ 137, 2023
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Title |
Analysis of a Single Crystal Solidification Process of an Ni-based Superalloy using a CAFE Model |
정재준 Jae Jun Jeong , 이형수 Hyungsoo Lee , 윤대원 Dae Won Yun , 정희원 Hi Won Jeong , 유영수 Young-soo Yoo , 서성문 Seong-moon Seo , 이재현 Je Hyun Lee |
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Abstract |
The efficiency of gas turbines depends on the gas turbine working temperature. Single crystal blades are being applied more often than equiaxed blades in gas turbine engines, to increase the turbine inlet temperature, resulting in enhanced turbine engine efficiency. Single crystal blades endure creep conditions at high temperature better than polycrystal blades because the single crystals do not include grain boundaries. The single crystal process is a breakthrough technology, however, production yield is relatively low compared with polycrystal, and their mechanical properties depend on the crystallographic orientation of the single crystals. In this study, a thermal simulation model, the 3D cellular automation-finite element (CA-FE), was used on the single crystal process with the Bridgman method. The simulation model was well expected, by analysis of the microstructure and EBSD, on the grain selection in the single crystal process. The evolution of single crystal grains was analyzed on process of grain selection in start block and spiral selector. Single crystal orientation was also investigated to determine the effect of nucleation density, forming in the initial stage of solidification.
(Received 20 September, 2022; Accepted 7 November, 2022) |
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Key Words |
superalloy, directional solidification, CMSX-4, single crystal, procast |
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