Phase selection of undercooled solidification of Ni-4.5 wt% B alloy

Junfeng Xu; Feng Liu; Di Zhang

doi:10.1557/jmr.2013.358

Phase selection of undercooled solidification of Ni-4.5 wt% B alloy

Junfeng Xu, Feng Liu, Di Zhang

School of Materials Sience and Engineering

Research output: Contribution to journal › Article › peer-review

8 Scopus citations

Abstract

Solidification of undercooled Ni-4.5 wt% B alloy melt was investigated by glass fluxing and cyclic superheating. A maximum melt undercooling up to ΔT_p = 283 K has been achieved. If ΔT_p < 175 ± 10 K, the primary solidification is L → Ni₃B; the structure consists of Ni3B dendrite + lamellar eutectic; the phase sizes and fractions depend on ΔT_p. If ΔT_p ≥ 175 ± 10 K, the primary solidification is L → Ni/Ni₂₃B ₆; the structure consists of the dot-phase region + the anomalous eutectic/network boundary; the phase fractions mainly depend on ΔT _r; the dot phases are determined as rod eutectic and dot precipitates, while the network boundary is the divorced eutectic. The solidification pathways show that there is a common critical nucleation temperature, 1227 ± 10 K, for metastable eutectic reaction in hypoeutectic and hypereutectic Ni-Ni₃B alloys.

Original language	English
Pages (from-to)	3347-3354
Number of pages	8
Journal	Journal of Materials Research
Volume	28
Issue number	24
DOIs	https://doi.org/10.1557/jmr.2013.358
State	Published - 28 Dec 2013

Keywords

cooling curve
eutectic
solidification
undercooling

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title = "Phase selection of undercooled solidification of Ni-4.5 wt% B alloy",

abstract = "Solidification of undercooled Ni-4.5 wt% B alloy melt was investigated by glass fluxing and cyclic superheating. A maximum melt undercooling up to ΔTp = 283 K has been achieved. If ΔTp < 175 ± 10 K, the primary solidification is L → Ni3B; the structure consists of Ni3B dendrite + lamellar eutectic; the phase sizes and fractions depend on ΔTp. If ΔTp ≥ 175 ± 10 K, the primary solidification is L → Ni/Ni23B 6; the structure consists of the dot-phase region + the anomalous eutectic/network boundary; the phase fractions mainly depend on ΔT r; the dot phases are determined as rod eutectic and dot precipitates, while the network boundary is the divorced eutectic. The solidification pathways show that there is a common critical nucleation temperature, 1227 ± 10 K, for metastable eutectic reaction in hypoeutectic and hypereutectic Ni-Ni3B alloys.",

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author = "Junfeng Xu and Feng Liu and Di Zhang",

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T1 - Phase selection of undercooled solidification of Ni-4.5 wt% B alloy

AU - Xu, Junfeng

AU - Liu, Feng

AU - Zhang, Di

PY - 2013/12/28

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N2 - Solidification of undercooled Ni-4.5 wt% B alloy melt was investigated by glass fluxing and cyclic superheating. A maximum melt undercooling up to ΔTp = 283 K has been achieved. If ΔTp < 175 ± 10 K, the primary solidification is L → Ni3B; the structure consists of Ni3B dendrite + lamellar eutectic; the phase sizes and fractions depend on ΔTp. If ΔTp ≥ 175 ± 10 K, the primary solidification is L → Ni/Ni23B 6; the structure consists of the dot-phase region + the anomalous eutectic/network boundary; the phase fractions mainly depend on ΔT r; the dot phases are determined as rod eutectic and dot precipitates, while the network boundary is the divorced eutectic. The solidification pathways show that there is a common critical nucleation temperature, 1227 ± 10 K, for metastable eutectic reaction in hypoeutectic and hypereutectic Ni-Ni3B alloys.

AB - Solidification of undercooled Ni-4.5 wt% B alloy melt was investigated by glass fluxing and cyclic superheating. A maximum melt undercooling up to ΔTp = 283 K has been achieved. If ΔTp < 175 ± 10 K, the primary solidification is L → Ni3B; the structure consists of Ni3B dendrite + lamellar eutectic; the phase sizes and fractions depend on ΔTp. If ΔTp ≥ 175 ± 10 K, the primary solidification is L → Ni/Ni23B 6; the structure consists of the dot-phase region + the anomalous eutectic/network boundary; the phase fractions mainly depend on ΔT r; the dot phases are determined as rod eutectic and dot precipitates, while the network boundary is the divorced eutectic. The solidification pathways show that there is a common critical nucleation temperature, 1227 ± 10 K, for metastable eutectic reaction in hypoeutectic and hypereutectic Ni-Ni3B alloys.

KW - cooling curve

KW - eutectic

KW - solidification

KW - undercooling

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M3 - 文章

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JO - Journal of Materials Research

JF - Journal of Materials Research

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ER -

Phase selection of undercooled solidification of Ni-4.5 wt% B alloy

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Keywords

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