Solidification Behavior of AZ31 Magnesium Alloys Using an Electromagnetic Vibration Technique
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概要
- 論文の詳細を見る
The commercial magnesium-based AZ31 alloy was solidified in a static magnetic field when an alternating electric current, perpendicular to the direction of the magnetic field, passes through the alloy. In this case, the periodical Lorentz force is generated, making the conductor vibrate centering on the initial equilibrium position. In this paper, we investigated the microstructure evolution of the alloy as a function of vibration frequency, magnetic flux density and electric current, respectively. The solidification behavior was discussed and the mechanism for the formation of the microstructure was proposed when considering the electrical properties of solid and liquid at high temperature. Because the electrical resistivity of liquid in the mushy zone is about twice that of the solid, this significant difference drives the solid to move faster than the liquid and thus generating a leading displacement for the solid over the liquid even within one vibration cycle. The uncoupled movement between the solid and liquid also gives rise to melt flow, which may be the reason to segment dendrites into fine particles. Meanwhile, the uncoupled movement makes it difficult to establish a steady state for solute redistribution during solidification and thus favoring equiaxed structures instead of dendrites. Considering these two factors, we examine the solidification behavior of the alloy separately when vibration frequency, magnetic flux density, and electric current are set as independent variables and the microstructure evolution as a function of these processing parameters can be well interpreted.
- 社団法人 日本鉄鋼協会の論文
- 2008-03-15
著者
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Miwa Kenji
Materials Research Institute For Sustainable Development National Institute Of Advanced Industrial S
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TAMURA Takuya
Department of Materials Science, Graduate School of Engineering, Tohoku University
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Tamura Takuya
Department Of Materials Science Graduate School Of Engineering Tohoku University
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Tamura Takuya
Materials Res. Inst. For Sustainable Dev. National Inst. Of Advanced Industrial Sci. And Technol.
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LI Mingjun
National Institute of Advanced Industrial Science and Technology
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TAMURA Takuya
National Institute of Advanced Industrial Science and Technology
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MIWA Kenji
National Institute of Advanced Industrial Science and Technology
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Tamura Takuya
Materials Research Institute For Sustainable Development National Institute Of Advanced Industrial S
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Takahashi T
Japan Ultra‐high Temperature Materials Res. Inst. (jutemi) Yamaguchi Jpn
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Li Mingjun
Materials Research Institute For Sustainable Development National Institute Of Advanced Industrial S
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Li Mingjun
National Institute Of Advanced Industrial Science And Technology Materials Research Institute For Su
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Miwa Kenji
Materials Research Institute For Sustainable Development National Institute Of Advanced Industrial S
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Tamura Takuya
Materials Research Institute For Sustainable Development National Institute Of Advanced Industrial S
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Miwa Kenji
Materials Research Institute For Sustainable Development National Institute Of Advanced Industrial S
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