Comparison of fatigue performance of TC4 titanium alloy welded by electron beam welding and laser welding with filler wire

Jian Long; Lin Jie Zhang; Li Xu Zhang; Jun Wu; Ming Xiang Zhuang

doi:10.1111/ffe.13644

Comparison of fatigue performance of TC4 titanium alloy welded by electron beam welding and laser welding with filler wire

Jian Long
, Lin Jie Zhang
, Li Xu Zhang
, Jun Wu
, Ming Xiang Zhuang

School of Materials Science and Engineering

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

25 Scopus citations

Abstract

This research compared high-cycle fatigue (HCF) performances of joints of Ti–6Al–4V titanium (TC4) alloy with the thickness of 30 mm welded by vacuum electron beam welding (EBW) and laser welding with filler wire (LWFW) (hereinafter referred to as EBW and LWFW joints). Under test conditions, the fatigue strength of the LWFW joint is only 65% that of the EBW joint. Based on analysis, the main reason is that a larger microhardness gradient is present in the LWFW joint. The average microhardness of the weld metal (WM) of the LWFW joint is 41 HV lower than that of base metal (BM). A lot of punctate β phases in the WM of the LWFW joint may be an important reason for its softening. The research results provide data supports for the application of the EBW and LWFW of Ti alloy in the field of aviation manufacturing.

Original language	English
Pages (from-to)	991-1004
Number of pages	14
Journal	Fatigue and Fracture of Engineering Materials and Structures
Volume	45
Issue number	4
DOIs	https://doi.org/10.1111/ffe.13644
State	Published - Apr 2022

Keywords

Ti–6Al–4V titanium alloy
fatigue fracture morphology
high-cycle fatigue
laser welding with filler wire
vacuum electron beam welding

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10.1111/ffe.13644

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@article{21af013d209a4af792991f49919ed9e6,

title = "Comparison of fatigue performance of TC4 titanium alloy welded by electron beam welding and laser welding with filler wire",

abstract = "This research compared high-cycle fatigue (HCF) performances of joints of Ti–6Al–4V titanium (TC4) alloy with the thickness of 30 mm welded by vacuum electron beam welding (EBW) and laser welding with filler wire (LWFW) (hereinafter referred to as EBW and LWFW joints). Under test conditions, the fatigue strength of the LWFW joint is only 65\% that of the EBW joint. Based on analysis, the main reason is that a larger microhardness gradient is present in the LWFW joint. The average microhardness of the weld metal (WM) of the LWFW joint is 41 HV lower than that of base metal (BM). A lot of punctate β phases in the WM of the LWFW joint may be an important reason for its softening. The research results provide data supports for the application of the EBW and LWFW of Ti alloy in the field of aviation manufacturing.",

keywords = "Ti–6Al–4V titanium alloy, fatigue fracture morphology, high-cycle fatigue, laser welding with filler wire, vacuum electron beam welding",

author = "Jian Long and Zhang, \{Lin Jie\} and Zhang, \{Li Xu\} and Jun Wu and Zhuang, \{Ming Xiang\}",

note = "Publisher Copyright: {\textcopyright} 2022 John Wiley \& Sons, Ltd.",

year = "2022",

month = apr,

doi = "10.1111/ffe.13644",

language = "英语",

volume = "45",

pages = "991--1004",

journal = "Fatigue and Fracture of Engineering Materials and Structures",

issn = "8756-758X",

publisher = "Wiley-Blackwell Publishing Ltd",

number = "4",

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TY - JOUR

T1 - Comparison of fatigue performance of TC4 titanium alloy welded by electron beam welding and laser welding with filler wire

AU - Long, Jian

AU - Zhang, Lin Jie

AU - Zhang, Li Xu

AU - Wu, Jun

AU - Zhuang, Ming Xiang

PY - 2022/4

Y1 - 2022/4

N2 - This research compared high-cycle fatigue (HCF) performances of joints of Ti–6Al–4V titanium (TC4) alloy with the thickness of 30 mm welded by vacuum electron beam welding (EBW) and laser welding with filler wire (LWFW) (hereinafter referred to as EBW and LWFW joints). Under test conditions, the fatigue strength of the LWFW joint is only 65% that of the EBW joint. Based on analysis, the main reason is that a larger microhardness gradient is present in the LWFW joint. The average microhardness of the weld metal (WM) of the LWFW joint is 41 HV lower than that of base metal (BM). A lot of punctate β phases in the WM of the LWFW joint may be an important reason for its softening. The research results provide data supports for the application of the EBW and LWFW of Ti alloy in the field of aviation manufacturing.

AB - This research compared high-cycle fatigue (HCF) performances of joints of Ti–6Al–4V titanium (TC4) alloy with the thickness of 30 mm welded by vacuum electron beam welding (EBW) and laser welding with filler wire (LWFW) (hereinafter referred to as EBW and LWFW joints). Under test conditions, the fatigue strength of the LWFW joint is only 65% that of the EBW joint. Based on analysis, the main reason is that a larger microhardness gradient is present in the LWFW joint. The average microhardness of the weld metal (WM) of the LWFW joint is 41 HV lower than that of base metal (BM). A lot of punctate β phases in the WM of the LWFW joint may be an important reason for its softening. The research results provide data supports for the application of the EBW and LWFW of Ti alloy in the field of aviation manufacturing.

KW - Ti–6Al–4V titanium alloy

KW - fatigue fracture morphology

KW - high-cycle fatigue

KW - laser welding with filler wire

KW - vacuum electron beam welding

UR - https://www.scopus.com/pages/publications/85123097512

U2 - 10.1111/ffe.13644

DO - 10.1111/ffe.13644

M3 - 文章

AN - SCOPUS:85123097512

SN - 8756-758X

VL - 45

SP - 991

EP - 1004

JO - Fatigue and Fracture of Engineering Materials and Structures

JF - Fatigue and Fracture of Engineering Materials and Structures

IS - 4

ER -

Comparison of fatigue performance of TC4 titanium alloy welded by electron beam welding and laser welding with filler wire

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Keywords

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