Prediction of Solid-liquid Interfacial Energy of Steel during Solidification and Control of Dendrite Arm Spacing
スポンサーリンク
概要
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Solid-liquid interfacial energy of steel during solidification was measured predicted from the both experimental techniques of unidirectional solidification and thermal analysis applying the dendrite growth model and heterogeneous nucleation model. Solid-liquid interfacial energy changed depending on primary phase during solidification, i.e., that of primary δ phase was larger than that of γ phase. When the primary phase was the same, solid-liquid interfacial energy increased with increasing C content. Primary dendrite arm spacing changed depending on solid-liquid interfacial energy. A trace amount of Bi which had the effect of a decrease in the solid-liquid interfacial energy of steel during solidification decreased primary and secondary dendrite arm spacing, significantly.
著者
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Mizukami Hideo
Technical Research & Development Bureau, Nippon Steel & Sumitomo Metal Corporation
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Hayashi Koutarou
Technical Research & Development Bureau, Nippon Steel & Sumitomo Metal Corporation
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Numata Mitsuhiro
Technical Research & Development Bureau, Nippon Steel & Sumitomo Metal Corporation
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Yamanaka Akihiro
Technical Research & Development Bureau, Nippon Steel & Sumitomo Metal Corporation
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Hayashi Koutarou
Technical Research & Development Bureau, Nippon Steel & Sumitomo Metal Corporation
関連論文
- Prediction of Solid-liquid Interfacial Energy of Steel during Solidification and Control of Dendrite Arm Spacing
- Prediction of Solid-liquid Interfacial Energy of Steel during Solidification and Control of Dendrite Arm Spacing