Grain size gradient naturally prepared through recrystallization in rapidly solidified undercooled alloy melts

Xiaolong Xu; Yuhong Zhao; Hua Hou; Feng Liu

doi:10.3139/146.111648

Grain size gradient naturally prepared through recrystallization in rapidly solidified undercooled alloy melts

Xiaolong Xu, Yuhong Zhao, Hua Hou, Feng Liu

School of Materials Sience and Engineering

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

10 Scopus citations

Abstract

A grain size gradient was naturally prepared through recrystallization in rapidly solidified Ni80Cu20 alloys quenched before recalescence. The fine grains on the surface of quenched specimens were partially recrystallized. However, the coarse grains in the deeper layers of the quenched alloys were fully recrystallized. It is proposed that the grain size gradient is due to recrystallization in the microstructures of the quenched alloys. Annealing the microstructure on the surface of the quenched specimen led to crystal growth via recrystallization. These experimental results provided strong evidence for a grain refinement mechanism in undercooled solidification of alloys.

Original language	English
Pages (from-to)	593-598
Number of pages	6
Journal	International Journal of Materials Research
Volume	109
Issue number	7
DOIs	https://doi.org/10.3139/146.111648
State	Published - Jul 2018

Keywords

Grain refinement
Rapid solidification
Recrystallization
Undercooling

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title = "Grain size gradient naturally prepared through recrystallization in rapidly solidified undercooled alloy melts",

abstract = "A grain size gradient was naturally prepared through recrystallization in rapidly solidified Ni80Cu20 alloys quenched before recalescence. The fine grains on the surface of quenched specimens were partially recrystallized. However, the coarse grains in the deeper layers of the quenched alloys were fully recrystallized. It is proposed that the grain size gradient is due to recrystallization in the microstructures of the quenched alloys. Annealing the microstructure on the surface of the quenched specimen led to crystal growth via recrystallization. These experimental results provided strong evidence for a grain refinement mechanism in undercooled solidification of alloys.",

keywords = "Grain refinement, Rapid solidification, Recrystallization, Undercooling",

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

note = "Publisher Copyright: {\textcopyright} Carl Hanser Verlag GmbH & Co. KG.",

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T1 - Grain size gradient naturally prepared through recrystallization in rapidly solidified undercooled alloy melts

AU - Xu, Xiaolong

AU - Zhao, Yuhong

AU - Hou, Hua

AU - Liu, Feng

N1 - Publisher Copyright: © Carl Hanser Verlag GmbH & Co. KG.

PY - 2018/7

Y1 - 2018/7

N2 - A grain size gradient was naturally prepared through recrystallization in rapidly solidified Ni80Cu20 alloys quenched before recalescence. The fine grains on the surface of quenched specimens were partially recrystallized. However, the coarse grains in the deeper layers of the quenched alloys were fully recrystallized. It is proposed that the grain size gradient is due to recrystallization in the microstructures of the quenched alloys. Annealing the microstructure on the surface of the quenched specimen led to crystal growth via recrystallization. These experimental results provided strong evidence for a grain refinement mechanism in undercooled solidification of alloys.

AB - A grain size gradient was naturally prepared through recrystallization in rapidly solidified Ni80Cu20 alloys quenched before recalescence. The fine grains on the surface of quenched specimens were partially recrystallized. However, the coarse grains in the deeper layers of the quenched alloys were fully recrystallized. It is proposed that the grain size gradient is due to recrystallization in the microstructures of the quenched alloys. Annealing the microstructure on the surface of the quenched specimen led to crystal growth via recrystallization. These experimental results provided strong evidence for a grain refinement mechanism in undercooled solidification of alloys.

KW - Grain refinement

KW - Rapid solidification

KW - Recrystallization

KW - Undercooling

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M3 - 文章

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EP - 598

JO - International Journal of Materials Research

JF - International Journal of Materials Research

IS - 7

ER -

Grain size gradient naturally prepared through recrystallization in rapidly solidified undercooled alloy melts

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Keywords

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