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Chinese Journal of Lasers, Volume. 41, Issue 5, 503004(2014)

Experimental Research on High Power Fiber Laser-TIG Hybrid Welding

Li Fei*, Zou Jianglin, Kong Xiaofang, Wu Shikai, and Xiao Rongshi
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    [1] [1] S Ruppik, F Becker, F P Grundmann, et al.. High power disk and fiber lasers-a performance comparison[C]. SPIE, 2012, 8235: 82350V.

    [2] [2] Y Kawahito, M Mizutani, S Katayama, Elucidation of high-power fibre laser welding phenomena of stainless steel and effect of factors on weld geometry[J]. J Phys D: Appl Phys, 2007, 40(19): 5854-5859.

    [3] [3] Zou Jianglin, Wu Shikai, Xiao Rongshi, et al.. Comparison of melting efficiency in high power fiber laser and CO2 laser welding[J]. Chinese J Lasers, 2013, 40(8): 0803002.

    [4] [4] Cai Hua, Kong Xiaofang, Xiao Rongshi. Effect of surface status on microstructures and solidification cracking susceptibility in laser beam welding of 2524 aluminum alloy[J]. Chinese J Lasers, 2013, 40(2): 0203002.

    [5] [5] Y Kawahito, N Matsumoto, M Mizutani, et al.. Characterisation of plasma induced during high power fibre laser welding of stainlesssteel[J]. Sci Technol Weld Join, 2008, 13(8): 744-748.

    [6] [6] P Y Shcheglov, S A Uspenskiy, A V Gumenyuk, et al.. Plume attenuation of laser radiation during high power fiber laserwelding[J]. Laser Phys Lett, 2011, 8(6): 475-480.

    [7] [7] P Y Shcheglov, A V Gumenyuk, I B Gornushkin, et al.. Vapor-plasma plume investigation during high-power fiber laserwelding[J]. Laser Physics, 2013, 23(1): 1-7.

    [8] [8] Rongshi Xiao,Jianglin Zou. Studying on characteristics of plume/plasma in fiber laser welding and CO2 laser welding[C]. 31st International Congress on Applications of Lasers & Electro-Optics (ICALEO), 2012.

    [9] [9] Xiao Rongshi, Wu Shikai. Progress on laser-arc hybrid welding[J]. Chinese J Lasers, 2008, 35(11): 1680-1685.

    [10] [10] A Mahrle, E Beyer. Hybrid laser beam welding-classification, characteristics, and applications[J]. J Laser Appl, 2006, 18(3): 169-180.

    [11] [11] B Ribic, T A Palmer, T Debroy. Problems and issues in laser-arc hybrid welding[J]. Int Mater Rev, 2009, 54(4): 223-244.

    [12] [12] Y Kawahito, K Kinoshita, N Matsumoto, et al.. Effect of weakly ionised plasma on penetration of stainless steel weld produced with ultra high power density fibrelaser[J]. Sci Technol Weld Joi, 2008, 13(8): 749-753.

    [13] [13] Jay F Tu, Takashi Inoue and Isamu Miyamoto. Quantitative characterization of keyhole absorption mechanisms in 20 kW-class CO2 laser welding processes[J]. J Phys D: Appl Phys, 2003, 36(2): 192-203.

    [14] [14] T Moscicki, J Hoffman, Z Szymanski. Modeling of plasma plume induced during laser welding[J]. J Phys D: Appl Phys, 2006, 39(4): 685-692.

    [15] [15] Wu Shikai, Xiao Rongshi, Yang Wuxiong, et al.. Characteristics comparison of laser-TIG arc interaction using high power CO2 and YbYAG laser[J]. Chinese J Lasers, 2010, 37(10): 2667-2671.

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    [5] Wang Hongyang, Li Quan, Song Gang, Liu Liming. Laser-Arc Hybrid Welding of Titanium Alloy and Stainless Steel with Copper Interlayer[J]. Chinese Journal of Lasers, 2016, 43(5): 503002

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    Li Fei, Zou Jianglin, Kong Xiaofang, Wu Shikai, Xiao Rongshi. Experimental Research on High Power Fiber Laser-TIG Hybrid Welding[J]. Chinese Journal of Lasers, 2014, 41(5): 503004

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    Paper Information

    Category: laser manufacturing

    Received: Nov. 14, 2013

    Accepted: --

    Published Online: Apr. 22, 2014

    The Author Email: Li Fei (hxly9977@163.com)

    DOI:10.3788/cjl201441.0503004

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology