Effect of Catalyst on Heterogeneous Nucleation in Fe-Ni-Cr Alloys

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概要

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• In order to elucidate the nature of heterogeneous nucleation, a differential scanning calorimetry (DSC) thermal analysis of Fe–Ni–Cr alloys (Ni+Cr content=30 mass% (constant); Ni content: 7.5 to 29.3 mass%) containing TiN and Al2O3 was conducted. Then, special attention was paid to the difference in the phase of the primary crystal nucleated by the triggering effect of a catalyst (nucleating agent). The solidification and transformation mode appearing during cooling in these alloys is classified into three cases: F mode, FA mode, and A mode. The change of modes and the critical undercooling (ΔT) depend on the kind of catalyst used as well as on the chemical composition. In addition, in spite of the kind of primary crystal, the value of ΔT is always smaller in the order of TiN<Al2O3. These findings are the same as those for Fe–Ni alloy, although Fe–Ni–Cr alloys have the advantage that the increase of Cr content can trigger the crystallization of the primary crystal of the δ phase, which consequently can reduce ΔT and extend the region of low ΔT. The total concentration of catalyst molecules (C1), as well as the interface free-energy ratio ((γCL−γSC)/γLS), is one of the most significant factors in explaining undercooling for heterogeneous nucleation. (γCL−γSC)/γLS is related to the kind of catalyst used and the chemical composition, and C1 is related to the crystallized content of catalyst. As a matter of fact, the number of catalysts supplied to the solidification front has a practical effect on the control of the solidification-structure.

• 社団法人 日本鉄鋼協会の論文
• 2006-06-15

著者

• KHUMKOA S

  東北大学多元物質科学研究所

• Khumkoa Sakhob

  Institut Fur Eisenhuttenkunde Rwth-aachen

• Khumkoa S

  Tohoku Univ.

• Khumkoa S

  東北大 多元物質科学研

• NAKAJIMA Keiji

  Corporate Research & Development Laboratories, Sumitomo Metal Industries, Ltd.

• HASEGAWA Hajime

  Kimitsu R&D Laboratory, Technical Development Bureau, Nippon Steel Corporation

• HAYASHI Miyuki

  Department of Chemistry and Materials Science, Tokyo Institute of Technology

• Nakajima Keiji

  Corporate Research & Development Laboratories Sumitomo Metal Industries Ltd.

• Hasegawa Hajime

  Kimitsu R&d Laboratory Technical Development Bureau Nippon Steel Corporation

• Hayashi Miyuki

  Department Of Chemistry And Applied Chemistry Faculty Of Science And Engineering Saga University

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