Hastelloy X 주조재의 열간 노출에 따른 미세조직 및 인장 특성 변화

Microstructural evolution of cast Hastelloy X during thermal exposure has been investigated. OM, SEM, and TEM microscopy were carried out on the as-cast, the standard heat treated, and the thermally exposed conditions. Tensile tests were also conducted to understand the effect of microstructural evo...

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Published in	한국주조공학회지 Vol. 37; no. 5; pp. 139 - 147
Main Authors	최백규, Baig Gyu Choi, 김인수, In Soo Kim, 도정현, Jeonghyeon Do, 정중은, Joong Eun Jung, 정인용, In Yong Jung, 홍현욱, Hyun Uk Hong, 조창용, Chang Yong Jo
Format	Journal Article
Language	Korean
Published	한국주조공학회 31.10.2017
Subjects	Carbide Hastelloy X Microstructure Tensile properties Thermal exposure 금속공학 Carbide Thermal exposure Microstructure Hastelloy X Tensile properties
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Abstract	Microstructural evolution of cast Hastelloy X during thermal exposure has been investigated. OM, SEM, and TEM microscopy were carried out on the as-cast, the standard heat treated, and the thermally exposed conditions. Tensile tests were also conducted to understand the effect of microstructural evolution on the degradation of tensile properties. Coarse M 6 C and fine M 23 C 6 carbides were found in as-cast Hastelloy X with fine carbides on sub-boundary. Some of M 23 C 6 carbide dissolved into the matrix during solution heat treatment and dislocation network formed at the interface between the carbide and the matrix due to the misfit strain. There was no significant microstructural difference between the exposed specimens at 400℃ and the solution heat treated specimen. A large amount of M 23 C 6 carbides precipitated along and near grain boundaries and sub-boundaries after exposure at 650℃. Expo-sure at 870℃ of the alloy caused precipitation of M 6 C and μ. The strength increased and the elongation decreased by thermal expo-sure at 650℃ and 870℃ because carbides interfere with the movement of the dislocation. It was found that the precipitation of carbide gave significant effects on the tensile properties of Hastelloy X.
AbstractList	Microstructural evolution of cast Hastelloy X during thermal exposure has been investigated. OM, SEM, and TEM microscopy were carried out on the as-cast, the standard heat treated, and the thermally exposed conditions. Tensile tests were also conducted to understand the effect of microstructural evolution on the degradation of tensile properties. Coarse M 6 C and fine M 23 C 6 carbides were found in as-cast Hastelloy X with fine carbides on sub-boundary. Some of M 23 C 6 carbide dissolved into the matrix during solution heat treatment and dislocation network formed at the interface between the carbide and the matrix due to the misfit strain. There was no significant microstructural difference between the exposed specimens at 400℃ and the solution heat treated specimen. A large amount of M 23 C 6 carbides precipitated along and near grain boundaries and sub-boundaries after exposure at 650℃. Expo-sure at 870℃ of the alloy caused precipitation of M 6 C and μ. The strength increased and the elongation decreased by thermal expo-sure at 650℃ and 870℃ because carbides interfere with the movement of the dislocation. It was found that the precipitation of carbide gave significant effects on the tensile properties of Hastelloy X. Microstructural evolution of cast Hastelloy X during thermal exposure has been investigated. OM, SEM, and TEM microscopy were carried out on the as-cast, the standard heat treated, and the thermally exposed conditions. Tensile tests were also conducted to understand the effect of microstructural evolution on the degradation of tensile properties. Coarse M6C and fine M23C6 carbides were found in as-cast Hastelloy X with fine carbides on sub-boundary. Some of M23C6 carbide dissolved into the matrix during solution heat treatment and dislocation network formed at the interface between the carbide and the matrix due to the misfit strain. There was no significant microstructural difference between the exposed specimens at 400oC and the solution heat treated specimen. A large amount of M23C6 carbides precipitated along and near grain boundaries and sub-boundaries after exposure at 650oC. Exposure at 870oC of the alloy caused precipitation of M6C and μ. The strength increased and the elongation decreased by thermal exposure at 650oC and 870oC because carbides interfere with the movement of the dislocation. It was found that the precipitation of carbide gave significant effects on the tensile properties of Hastelloy X. KCI Citation Count: 0 Microstructural evolution of cast Hastelloy X during thermal exposure has been investigated. OM, SEM, and TEM microscopy were carried out on the as-cast, the standard heat treated, and the thermally exposed conditions. Tensile tests were also conducted to understand the effect of microstructural evolution on the degradation of tensile properties. Coarse $M_6C$ and fine $M_{23}C_6$ carbides were found in as-cast Hastelloy X with fine carbides on sub-boundary. Some of $M_{23}C_6$ carbide dissolved into the matrix during solution heat treatment and dislocation network formed at the interface between the carbide and the matrix due to the misfit strain. There was no significant microstructural difference between the exposed specimens at $400^{\circ}C$ and the solution heat treated specimen. A large amount of $M_{23}C_6$ carbides precipitated along and near grain boundaries and sub-boundaries after exposure at $650^{\circ}C$. Exposure at $870^{\circ}C$ of the alloy caused precipitation of $M_6C$ and ${\mu}$. The strength increased and the elongation decreased by thermal exposure at $650^{\circ}C$ and $870^{\circ}C$ because carbides interfere with the movement of the dislocation. It was found that the precipitation of carbide gave significant effects on the tensile properties of Hastelloy X.
Author	In Yong Jung 홍현욱 김인수 Chang Yong Jo 도정현 정중은 Jeonghyeon Do 정인용 Hyun Uk Hong Baig Gyu Choi Joong Eun Jung 조창용 최백규 In Soo Kim
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Title	Hastelloy X 주조재의 열간 노출에 따른 미세조직 및 인장 특성 변화
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