Influence of welding process on the properties of dissimilar titanium alloy weldments: a review

Junaid, Massab; Cheema, Taqi Ahmad

doi:10.1007/s42791-020-00034-4

Cited by 4 publications

(1 citation statement)

References 52 publications

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“…The increase of the microhardness towards the fusion zone can be explained with the increased presence of the formed α'-Ti martensitic phase in that area. Similar results were observed by previous researchers [35].…”

Section: Resultssupporting

confidence: 93%

Electron-Beam Welding of Titanium and Ti6Al4V Alloy

Kotlarski

Kaisheva

Ormanova

et al. 2023

Metals

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This work presents the results of the electron-beam welding of commercially pure α-Ti (CP-Ti) and Ti6Al4V (Ti64) alloys. The structure and mechanical properties of the formed welded joints were examined as a function of the power of the electron beam. The beam power was set to P1 = 2100 W, P2 = 1500 W, and P3 = 900 W, respectively. X-ray diffraction (XRD) experiments were performed in order to investigate the phase composition of the fabricated welded joints. The microstructure was examined by both optical microscopy, scanning electron microscopy (SEM), and energy dispersive X-ray spectroscopy (EDX). The mechanical properties of the formed joints were studied using tensile test experiments and microhardness experiments. The results of the experiments were discussed concerning the influence of the beam power on the microstructure and the mechanical properties of the weld joints. Furthermore, the practical applicability of the present method for the welding of α-Ti and Ti64 was also discussed.

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Section: Resultssupporting

confidence: 93%

Electron-Beam Welding of Titanium and Ti6Al4V Alloy

Kotlarski

Kaisheva

Ormanova

et al. 2023

Metals

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Numerical simulation and experimental investigation of laser joining Ti6Al4V alloy and CFRTP with embedded Ti6Al4V alloy

Xu¹,

Bu²,

Wang³

et al. 2022

Optics & Laser Technology

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Effect of Heat Treatment on the Microstructure and Properties of Ti600/TC18 Joints by Inertia Friction Welding

et al. 2022

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The Ti600/TC18 dissimilar titanium alloy joints were prepared by inertia friction welding (IFW). Then, stress-relief annealing and two-stage annealing were performed to optimize the microstructure and properties of the original joints, the purpose of them is to improve the structure and performance of the joints. Then, the microstructure, phase composition, tensile properties, microhardness, and fracture morphology of the joints after heat treatments were investigated. The results showed that after stress-relief annealing, the microstructure of the joints was almost similar to that of the specimen before annealing; the weld zone (WZ) of the joints was composed of fine recrystallized grains and α′, and the more β phases underwent a martensitic transformation. The shapes and sizes of αp phases were increased after two-stage annealing; its percentage content was decreased. The tensile properties and the microhardness values of the joints undergoing stress-relief annealing were relatively higher than that of the joints undergoing two-stage annealing; there was no obvious change in the plasticity of the joints. It was confirmed that the stress-relief annealing microstructure was composed of α′ and β phases, which were beneficial to the properties of the joints. However, the αs phases were coarsened after two-stage annealing, and the properties of the joints were reduced.

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Influence of welding process on the properties of dissimilar titanium alloy weldments: a review

Cited by 4 publications

References 52 publications

Electron-Beam Welding of Titanium and Ti6Al4V Alloy

Electron-Beam Welding of Titanium and Ti6Al4V Alloy

Numerical simulation and experimental investigation of laser joining Ti6Al4V alloy and CFRTP with embedded Ti6Al4V alloy

Effect of Heat Treatment on the Microstructure and Properties of Ti600/TC18 Joints by Inertia Friction Welding

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