Publication: Optimization of Laser-Irradiating Conditions for Vertical Welding on Thick Steel Plate using Hot-Wire Laser-Welding Method
Issued Date
2019-01-01
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ISSN
02884771
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2-s2.0-85076046526
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Mahidol University
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SCOPUS
Bibliographic Citation
Yosetsu Gakkai Ronbunshu/Quarterly Journal of the Japan Welding Society. Vol.37, No.4 (2019), 187-192
Suggested Citation
Sittisak Charunetratsamee, Eakkachai Warinsiriruk, Shinozaki Kenji, Yamamoto Motomichi Optimization of Laser-Irradiating Conditions for Vertical Welding on Thick Steel Plate using Hot-Wire Laser-Welding Method. Yosetsu Gakkai Ronbunshu/Quarterly Journal of the Japan Welding Society. Vol.37, No.4 (2019), 187-192. doi:10.2207/qjjws.37.187 Retrieved from: https://repository.li.mahidol.ac.th/handle/20.500.14594/50880
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Title
Optimization of Laser-Irradiating Conditions for Vertical Welding on Thick Steel Plate using Hot-Wire Laser-Welding Method
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Abstract
© 2019 Japan Welding Society. All rights reserved. We investigated the effect of laser-irradiating conditions-specifically laser spot size, laser power density and laser weaving. Three laser spot widths of 10, 4 and 2 mm were applied by changing the optical-lens and fiber-cable combination to investigate the effects of the laser power density and laser spot width. The weaving-irradiating method was applied with narrow laser widths of 4 and 2 mm. The effects of the laserirradiating condition were obtained based on high-speed imaging during welding and cross-sectional observation. Stable laser irradiation by a 10-mm laser spot width provided a lower power density than the critical value of 35W/mm2 and a lack of fusion. Weaving laser irradiation by a 4-or 2-mm laser spot width provided a higher power density, reduced the large lack of fusion and achieved a large penetration of base metal. The ratio between the laser beam-spot width and gap width (WL/WG ratio) affect the base-metal fusion significantly. A sound WL/WG ratio promoted base-metal fusion by providing a uniform and stable molten-pool temperature, whereas a small WL/WG ratio maintained a smaller fusion area because of the sudden temperature drop and temperature fluctuation of the molten pool.