Non-isothermal β grain growth behaviour of pure titanium under laser quenching

Xiao Zong; Zhuo Li; Jing Li; Xu Cheng; Haibo Tang; Huaming Wang

doi:10.1080/02670836.2020.1729498

Non-isothermal β grain growth behaviour of pure titanium under laser quenching

Xiao Zong
, Zhuo Li
, Jing Li
, Xu Cheng
, Haibo Tang
, Huaming Wang

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

3 Scopus citations

Abstract

The primary understanding of laser-induced non-isothermal prior β grain growth behaviour of titanium alloys is given by adopting laser quenching on pure titanium. Results indicate that the prior β grains grow obviously within the limited laser interaction time. By establishing a finite element model combined with numerical approximations, the growth activation energy of prior β grain under laser-induced non-isothermal condition is determined as 44.4 kJ/mol, which is comparable to that under isothermal conditions. Grain boundary migration behaviour of pure titanium under laser-induced non-isothermal conditions is the same as that under isothermal conditions, but the prior β grain growth kinetics is largely accelerated due to the high heat input from the laser beam.

Original language	English
Pages (from-to)	668-673
Number of pages	6
Journal	Materials Science and Technology (United Kingdom)
Volume	36
Issue number	6
DOIs	https://doi.org/10.1080/02670836.2020.1729498
State	Published - 12 Apr 2020
Externally published	Yes

Keywords

Laser processing
crystal growth
non-isothermal
pure titanium

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10.1080/02670836.2020.1729498

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title = "Non-isothermal β grain growth behaviour of pure titanium under laser quenching",

abstract = "The primary understanding of laser-induced non-isothermal prior β grain growth behaviour of titanium alloys is given by adopting laser quenching on pure titanium. Results indicate that the prior β grains grow obviously within the limited laser interaction time. By establishing a finite element model combined with numerical approximations, the growth activation energy of prior β grain under laser-induced non-isothermal condition is determined as 44.4 kJ/mol, which is comparable to that under isothermal conditions. Grain boundary migration behaviour of pure titanium under laser-induced non-isothermal conditions is the same as that under isothermal conditions, but the prior β grain growth kinetics is largely accelerated due to the high heat input from the laser beam.",

keywords = "Laser processing, crystal growth, non-isothermal, pure titanium",

author = "Xiao Zong and Zhuo Li and Jing Li and Xu Cheng and Haibo Tang and Huaming Wang",

note = "Publisher Copyright: {\textcopyright} 2020, {\textcopyright} 2020 Institute of Materials, Minerals and Mining.",

year = "2020",

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day = "12",

doi = "10.1080/02670836.2020.1729498",

language = "英语",

volume = "36",

pages = "668--673",

journal = "Materials Science and Technology (United Kingdom)",

issn = "0267-0836",

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}

TY - JOUR

T1 - Non-isothermal β grain growth behaviour of pure titanium under laser quenching

AU - Zong, Xiao

AU - Li, Zhuo

AU - Li, Jing

AU - Cheng, Xu

AU - Tang, Haibo

AU - Wang, Huaming

PY - 2020/4/12

Y1 - 2020/4/12

N2 - The primary understanding of laser-induced non-isothermal prior β grain growth behaviour of titanium alloys is given by adopting laser quenching on pure titanium. Results indicate that the prior β grains grow obviously within the limited laser interaction time. By establishing a finite element model combined with numerical approximations, the growth activation energy of prior β grain under laser-induced non-isothermal condition is determined as 44.4 kJ/mol, which is comparable to that under isothermal conditions. Grain boundary migration behaviour of pure titanium under laser-induced non-isothermal conditions is the same as that under isothermal conditions, but the prior β grain growth kinetics is largely accelerated due to the high heat input from the laser beam.

AB - The primary understanding of laser-induced non-isothermal prior β grain growth behaviour of titanium alloys is given by adopting laser quenching on pure titanium. Results indicate that the prior β grains grow obviously within the limited laser interaction time. By establishing a finite element model combined with numerical approximations, the growth activation energy of prior β grain under laser-induced non-isothermal condition is determined as 44.4 kJ/mol, which is comparable to that under isothermal conditions. Grain boundary migration behaviour of pure titanium under laser-induced non-isothermal conditions is the same as that under isothermal conditions, but the prior β grain growth kinetics is largely accelerated due to the high heat input from the laser beam.

KW - Laser processing

KW - crystal growth

KW - non-isothermal

KW - pure titanium

UR - https://www.scopus.com/pages/publications/85082734101

U2 - 10.1080/02670836.2020.1729498

DO - 10.1080/02670836.2020.1729498

M3 - 文章

AN - SCOPUS:85082734101

SN - 0267-0836

VL - 36

SP - 668

EP - 673

JO - Materials Science and Technology (United Kingdom)

JF - Materials Science and Technology (United Kingdom)

IS - 6

ER -

Non-isothermal β grain growth behaviour of pure titanium under laser quenching

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Keywords

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