Non-equilibrium effects on solid transition of solidification microstructure of deeply undercooled alloys

Hua Hou; Yuxing Li; Xiaolong Xu; Yuhong Zhao; Feng Liu

doi:10.1080/02670836.2017.1393977

Non-equilibrium effects on solid transition of solidification microstructure of deeply undercooled alloys

Hua Hou
, Yuxing Li
, Xiaolong Xu
, Yuhong Zhao
, Feng Liu

School of Materials Sience and Engineering

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

18 Scopus citations

Abstract

Integrated effects of undercooling and solute drag on recrystallisation mechanism of rapid solidification microstructure were investigated in highly undercooled Ni-Cu alloys. The equiaxed grained microstructures were prepared by fluxing method and subsequent quenching. Annealing the microstructures of the as-quenched alloys, substantial recrystallisation growth was observed. Applying solute trapping model of undercooled melt and solute drag model of solid-state transformation, it can be inferred that the microstructural evolution was dominated by nucleation and growth of recrystallisation process which is strongly dependent on the initial undercooling of the alloy melt and the solute drag force of the solid-state transition process.

Original language	English
Pages (from-to)	402-407
Number of pages	6
Journal	Materials Science and Technology
Volume	34
Issue number	4
DOIs	https://doi.org/10.1080/02670836.2017.1393977
State	Published - 4 Mar 2018

Keywords

crystal growth
defects
metals and alloys
recrystallisation
Solidification

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10.1080/02670836.2017.1393977

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title = "Non-equilibrium effects on solid transition of solidification microstructure of deeply undercooled alloys",

abstract = "Integrated effects of undercooling and solute drag on recrystallisation mechanism of rapid solidification microstructure were investigated in highly undercooled Ni-Cu alloys. The equiaxed grained microstructures were prepared by fluxing method and subsequent quenching. Annealing the microstructures of the as-quenched alloys, substantial recrystallisation growth was observed. Applying solute trapping model of undercooled melt and solute drag model of solid-state transformation, it can be inferred that the microstructural evolution was dominated by nucleation and growth of recrystallisation process which is strongly dependent on the initial undercooling of the alloy melt and the solute drag force of the solid-state transition process.",

keywords = "crystal growth, defects, metals and alloys, recrystallisation, Solidification",

author = "Hua Hou and Yuxing Li and Xiaolong Xu and Yuhong Zhao and Feng Liu",

note = "Publisher Copyright: {\textcopyright} 2017 Institute of Materials, Minerals and Mining.",

year = "2018",

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doi = "10.1080/02670836.2017.1393977",

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TY - JOUR

T1 - Non-equilibrium effects on solid transition of solidification microstructure of deeply undercooled alloys

AU - Hou, Hua

AU - Li, Yuxing

AU - Xu, Xiaolong

AU - Zhao, Yuhong

AU - Liu, Feng

PY - 2018/3/4

Y1 - 2018/3/4

N2 - Integrated effects of undercooling and solute drag on recrystallisation mechanism of rapid solidification microstructure were investigated in highly undercooled Ni-Cu alloys. The equiaxed grained microstructures were prepared by fluxing method and subsequent quenching. Annealing the microstructures of the as-quenched alloys, substantial recrystallisation growth was observed. Applying solute trapping model of undercooled melt and solute drag model of solid-state transformation, it can be inferred that the microstructural evolution was dominated by nucleation and growth of recrystallisation process which is strongly dependent on the initial undercooling of the alloy melt and the solute drag force of the solid-state transition process.

AB - Integrated effects of undercooling and solute drag on recrystallisation mechanism of rapid solidification microstructure were investigated in highly undercooled Ni-Cu alloys. The equiaxed grained microstructures were prepared by fluxing method and subsequent quenching. Annealing the microstructures of the as-quenched alloys, substantial recrystallisation growth was observed. Applying solute trapping model of undercooled melt and solute drag model of solid-state transformation, it can be inferred that the microstructural evolution was dominated by nucleation and growth of recrystallisation process which is strongly dependent on the initial undercooling of the alloy melt and the solute drag force of the solid-state transition process.

KW - crystal growth

KW - defects

KW - metals and alloys

KW - recrystallisation

KW - Solidification

UR - https://www.scopus.com/pages/publications/85032819505

U2 - 10.1080/02670836.2017.1393977

DO - 10.1080/02670836.2017.1393977

M3 - 文章

AN - SCOPUS:85032819505

SN - 0267-0836

VL - 34

SP - 402

EP - 407

JO - Materials Science and Technology

JF - Materials Science and Technology

IS - 4

ER -

Non-equilibrium effects on solid transition of solidification microstructure of deeply undercooled alloys

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Keywords

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