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Chinese Journal of Lasers, Volume. 40, Issue 5, 503007(2013)

Study on the Characteristics of Double-Sided Laser Beam Welding for T-Joints

Yang Zhibin1、*, Tao Wang1,2, Liu Shen1, Chen Jie3, Chen Yanbin1, Li Liqun1, and Chen Lei3
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  • 1[in Chinese]
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    [1] [1] G. Neye. Laserstrahlschweiβkonzept für Rumpfschalen-Strukturen[M]. Strahltechnik, Band 5, Bremen, Bias-Verlag, 1997. Hrsg.: Sepold G, Jüptner W. ISBN: 3-9805011-5-9

    [2] [2] P. F. Mendez, T. W. Eagar. Welding process for aeronautics[J]. Adv. Mater. Proc., 2001, 159(5): 39~43

    [3] [3] D. Dttrich, J. Standfuss, J. Liebscher et al.. Laser beam welding of hard to weld Al alloys for a regional aircraft fuselage design-first results [J]. Phys. Proc., 2011, 12(1): 113~122

    [4] [4] W. Zink. Welding fuselage shells[J]. Industrial Laser Solutions for Manu., 2001, 16(4): 7~10

    [5] [5] B. Brenner, J. Standfuβ, L. Morgenthal et al.. New technological aspects of laser beam welding of aircraft structures[C]. Düsseldorf: DVS 2004. 19~24

    [6] [6] O. Gedrat, G. Kuck, A. Kolley et al.. Verfahren zum schweissen von profilen auf grossformatigen aluminium-strukturbauteilen mittels laserstrahlen und vorrichtung zur durchführung des verfahrens[P]. European Patent: Patent Number EP0838301B1, 1997

    [7] [7] B. Brenner B. Laser beam welding of aircraft fuselage structures[C]. Proc. ICALEO 2008, Temecula, USA, Paper #1801: 838~845

    [8] [8] G. Neye, P. Heider. Laser beam welding of modern Al-alloy for the aircraft industry[C]. Proc. Conf. ECLAT01′94/Dusseldorf: Deutscher Verband für Schweiβtechnik 1994. 108~117

    [9] [9] P. Heider. Lasergerechte Konstruktion Und Lasergerechte Fertigungsmittel Zum Schweissengrossformatiger Aluminium-Strukturbauteile[D]. Bremer Institut fur Angewandte Strahltechnik, 1994. 34~35

    [10] [10] J. Schumacher, I. Zerner, G. Neye et al.. Laser beam welding of aircraft fuselage panels [C]. Proc. ICALEO 2002, Scottsdale, USA, Section A

    [11] [11] J. H. Dudas, F. R. Collins. Preventing weld cracks in high-strength aluminium alloys[J]. Weld J., 1966, 45(6): 241~249

    [12] [12] Li Liqun, Chen Yanbin, Tao Wang. Research on dual-beam welding characteristics of aluminum alloy[J]. Chinese J. Lasers, 2008, 35(11): 1783~1788

    [13] [13] S. Lampman S. Weld Integrity and Performance[M]. Materials Park: ASM International, 1997. 283~309

    [14] [14] J. R. Davis. Aluminum and Aluminum Alloys[M]. ASM specialty handbook. 5th ed. Materials Park OH (USA), 1993. 376~389

    [15] [15] Zhang Xin′ge, Li Liqun, Chen Yanbin et al.. Study on characteristics of laser-resistance hybrid welding for aluminum alloy[J]. Chinese J. Lasers, 2010, 37(5): 1404~1408

    [16] [16] Chen Jie, Yang Zhibin, Zhan Xiaohong et al.. Experimental properties study on both-side laser beam welding of T-joint aluminum alloy[J]. Applied Laser, 2011, 31(2): 130~134

    [17] [17] Hu Lianhai, Huang Jian, Ni Huifeng et al.. CO2 laser hybrid welding processes and microstructures of 10Ni3CrMoV steel in T joint form[J]. Chinese J. Lasers, 2011, 38(3): 0303003

    [18] [18] Qi Junfeng, Niu Zhen, Zhang Dongyun et al.. Control of shaping of welds for CO2 laser welding shipbuilding T-section aluminum alloy[J]. Chinese J. Lasers, 2008, 35(2): 297~302

    [19] [19] P. H. Lequeu, P. H. Lassince, T. Warner. Aluminum alloy development for the airbus A380-part 2[J]. Adv. Mater. Proc., 2007, 165(7): 41~44

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    Yang Zhibin, Tao Wang, Liu Shen, Chen Jie, Chen Yanbin, Li Liqun, Chen Lei. Study on the Characteristics of Double-Sided Laser Beam Welding for T-Joints[J]. Chinese Journal of Lasers, 2013, 40(5): 503007

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    Paper Information

    Category: laser manufacturing

    Received: Dec. 26, 2012

    Accepted: --

    Published Online: Apr. 23, 2013

    The Author Email: Zhibin Yang (yangzhibin@hit.edu.cn)

    DOI:10.3788/cjl201340.0503007

    Topics

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