Blue Diode Laser Welding of Commercially Pure Titanium Foils

Tim Pasang; Pai-Chen Lin; Wojciech Z. Misiolek; Jia-Yuan Wei; Shinichiro Masuno; Masahiro Tsukamoto; Eiji Hori; Yuji Sato; Yuan Tao; Danang Yudhistiro; Salahuddin Yunus

doi:10.3390/qubs6030024

Quantum Beam Science (Jul 2022)

Blue Diode Laser Welding of Commercially Pure Titanium Foils

Tim Pasang,
Pai-Chen Lin,
Wojciech Z. Misiolek,
Jia-Yuan Wei,
Shinichiro Masuno,
Masahiro Tsukamoto,
Eiji Hori,
Yuji Sato,
Yuan Tao,
Danang Yudhistiro,
Salahuddin Yunus

Affiliations

Tim Pasang: Department of Mechanical and Manufacturing Engineering and Technology, Oregon Institute of Technology, Klamath Falls, OR 97601, USA
Pai-Chen Lin: AIM-HI, National Chung Cheng University, No. 168, Section 1, Daxue Rd, Minxiong Township Chiayi County 62102, Taiwan
Wojciech Z. Misiolek: Loewy Institute, Department of Materials Science and Engineering, Lehigh University, Bethlehem, PA 18015, USA
Jia-Yuan Wei: AIM-HI, National Chung Cheng University, No. 168, Section 1, Daxue Rd, Minxiong Township Chiayi County 62102, Taiwan
Shinichiro Masuno: Joining and Welding Research Institute (JWRI), Osaka University, Osaka 567-0047, Japan
Masahiro Tsukamoto: Joining and Welding Research Institute (JWRI), Osaka University, Osaka 567-0047, Japan
Eiji Hori: Joining and Welding Research Institute (JWRI), Osaka University, Osaka 567-0047, Japan
Yuji Sato: Joining and Welding Research Institute (JWRI), Osaka University, Osaka 567-0047, Japan
Yuan Tao: Department of Mechanical Engineering, Auckland University of Technology, Auckland 1010, New Zealand
Danang Yudhistiro: Department of Mechanical Engineering, Universitas Jember, Jember 68121, Jawa Timur, Indonesia
Salahuddin Yunus: Department of Mechanical Engineering, Universitas Jember, Jember 68121, Jawa Timur, Indonesia

DOI: https://doi.org/10.3390/qubs6030024
Journal volume & issue: Vol. 6, no. 3
p. 24

Abstract

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The need for thin foil welding is increasing significantly, particularly in the electronic industries. The technologies that are currently available limit the joining processes in terms of materials and their geometries. In this paper, a series of trials of fusion welding (bead-on- plate) of commercially pure titanium (CPTi) foils were conducted using a blue diode laser (BDL) welding method. The power used was 50 W and 100 W for 0.1 mm and 0.2 mm thick foils, respectively. Following welding, various samples were prepared to examine the weld profiles, microstructures, hardness, tensile strength, and fracture surface characteristics. The results showed that the base metal (BM) had an annealed microstructure with equiaxed grains, while the weld zones contained martensite (α’) with large grains. The hardness increased in both regions, from around 123 HV to around 250 HV, in the heat-affected zone (HAZ) and fusion zone (FZ) areas. The tensile tests revealed that the strengths of the welded samples were slightly lower than the unwelded samples, i.e., UTS = 300–350 MPa compared with 325–390 MPa for the unwelded samples. Fracture took place within the BM area. All of the samples, welded and unwelded, showed identical fracture mechanisms, i.e., microvoid coalescence or ductile fracture. The weld zone experienced very small strains (elongation) at fracture, which indicates a good weld quality.

Published in Quantum Beam Science

ISSN: 2412-382X (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering
Website: http://www.mdpi.com/journal/qubs

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