Enhancing the mechanical properties of electron beam welded TC17 titanium alloy joint by post-weld heat treatment

Supersaturated coarsening β phase and submicron acicular martensitic α′ phase originated by the high cooling rate during the welding process resulted in the electron beam welded TC17 titanium weldment to be poor in strength and ductility. Post-weld heat treatment was performed at 630 °C for 2 h to i...

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Published inJournal of alloys and compounds Vol. 810; p. 151937
Main Authors Liu, Hanqing, Wang, Haomin, Zhang, Zhen, Huang, Zhiyong, Liu, Yongjie, Wang, Qingyuan, Chen, Qiang
Format Journal Article
LanguageEnglish
Published Lausanne Elsevier B.V 25.11.2019
Elsevier BV
Subjects
Beta phase
Coarsening
Cooling rate
DIC
Electron beam welding
Electron beams
Equiaxed and columnar β grains
Fatigue failure
Fatigue life
Fatigue strength
Heat affected zone
Heat treating
Lamella
Lamellar structure
Mechanical analysis
Mechanical properties
Microhardness
Post-weld heat treatment
Recrystallization
Stress ratio
TC17 titanium alloy
Tensile and fatigue behavior
Titanium alloys
Titanium base alloys
Welded joints
Equiaxed and columnar β grains
Electron beam welding
Tensile and fatigue behavior
Post-weld heat treatment
TC17 titanium alloy
DIC
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Abstract Supersaturated coarsening β phase and submicron acicular martensitic α′ phase originated by the high cooling rate during the welding process resulted in the electron beam welded TC17 titanium weldment to be poor in strength and ductility. Post-weld heat treatment was performed at 630 °C for 2 h to improve the mechanical properties of electron beam welded TC17 titanium alloy joint through modifying the microstructures of the weldment. Results showed that undesired α′ martensites in the fusion zone and heat affected zone, which inhibited the mechanical response of the weldment, were completely eliminated. The supersaturated β phase with martensitic α′ structure in the as-welded joint was recrystallized into α lamella with a width in nanoscale embedded in the β matrix after the post-weld heat treatment, which conspicuously enhanced the mechanical performances of welded joints. Micro-hardness of the FZ presented to be more stable around HV410. Tensile strength was regained from 868 MPa to 1138 MPa, which was very closed to the raw material. Intrinsic metallic deficiency inducing fatigue failure of the as-welded joint was eliminated after the post-weld heat treatment accompanied with the fatigue strength enhancing from about 140 MPa of the as-welded joint to 240 MPa with an equal fatigue life of 107 cycles under the stress ratio of 0.1. [Display omitted] •Post-weld heat treatment was performed on the electron beam welded TC17 titanium alloy joint.•Martensitic α′ phase was sufficiently disintegrated and recrystallized into β phase with nano α lamellas.•The joint showed great micro-hardness stability after post-weld heat treatment.•Tensile and fatigue strength was significantly enhanced.
AbstractList Supersaturated coarsening β phase and submicron acicular martensitic α′ phase originated by the high cooling rate during the welding process resulted in the electron beam welded TC17 titanium weldment to be poor in strength and ductility. Post-weld heat treatment was performed at 630 °C for 2 h to improve the mechanical properties of electron beam welded TC17 titanium alloy joint through modifying the microstructures of the weldment. Results showed that undesired α′ martensites in the fusion zone and heat affected zone, which inhibited the mechanical response of the weldment, were completely eliminated. The supersaturated β phase with martensitic α′ structure in the as-welded joint was recrystallized into α lamella with a width in nanoscale embedded in the β matrix after the post-weld heat treatment, which conspicuously enhanced the mechanical performances of welded joints. Micro-hardness of the FZ presented to be more stable around HV410. Tensile strength was regained from 868 MPa to 1138 MPa, which was very closed to the raw material. Intrinsic metallic deficiency inducing fatigue failure of the as-welded joint was eliminated after the post-weld heat treatment accompanied with the fatigue strength enhancing from about 140 MPa of the as-welded joint to 240 MPa with an equal fatigue life of 107 cycles under the stress ratio of 0.1.
Supersaturated coarsening β phase and submicron acicular martensitic α′ phase originated by the high cooling rate during the welding process resulted in the electron beam welded TC17 titanium weldment to be poor in strength and ductility. Post-weld heat treatment was performed at 630 °C for 2 h to improve the mechanical properties of electron beam welded TC17 titanium alloy joint through modifying the microstructures of the weldment. Results showed that undesired α′ martensites in the fusion zone and heat affected zone, which inhibited the mechanical response of the weldment, were completely eliminated. The supersaturated β phase with martensitic α′ structure in the as-welded joint was recrystallized into α lamella with a width in nanoscale embedded in the β matrix after the post-weld heat treatment, which conspicuously enhanced the mechanical performances of welded joints. Micro-hardness of the FZ presented to be more stable around HV410. Tensile strength was regained from 868 MPa to 1138 MPa, which was very closed to the raw material. Intrinsic metallic deficiency inducing fatigue failure of the as-welded joint was eliminated after the post-weld heat treatment accompanied with the fatigue strength enhancing from about 140 MPa of the as-welded joint to 240 MPa with an equal fatigue life of 107 cycles under the stress ratio of 0.1. [Display omitted] •Post-weld heat treatment was performed on the electron beam welded TC17 titanium alloy joint.•Martensitic α′ phase was sufficiently disintegrated and recrystallized into β phase with nano α lamellas.•The joint showed great micro-hardness stability after post-weld heat treatment.•Tensile and fatigue strength was significantly enhanced.
ArticleNumber 151937
Author Wang, Haomin
Wang, Qingyuan
Chen, Qiang
Liu, Hanqing
Zhang, Zhen
Huang, Zhiyong
Liu, Yongjie
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  givenname: Qiang
  surname: Chen
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  organization: Department of Mechanical Engineering, Kyushu University, Fukuoka, 819-0395, Japan
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Keywords Equiaxed and columnar β grains
Electron beam welding
Tensile and fatigue behavior
Post-weld heat treatment
TC17 titanium alloy
DIC
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Snippet Supersaturated coarsening β phase and submicron acicular martensitic α′ phase originated by the high cooling rate during the welding process resulted in the...
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StartPage 151937
SubjectTerms Beta phase
Coarsening
Cooling rate
DIC
Electron beam welding
Electron beams
Equiaxed and columnar β grains
Fatigue failure
Fatigue life
Fatigue strength
Heat affected zone
Heat treating
Lamella
Lamellar structure
Mechanical analysis
Mechanical properties
Microhardness
Post-weld heat treatment
Recrystallization
Stress ratio
TC17 titanium alloy
Tensile and fatigue behavior
Titanium alloys
Titanium base alloys
Welded joints
Title Enhancing the mechanical properties of electron beam welded TC17 titanium alloy joint by post-weld heat treatment
URI https://dx.doi.org/10.1016/j.jallcom.2019.151937
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