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Kaierle, Laser-GMA hybrid welding of API 5L X70 with 23 mm plate thickness using 16 kW disk laser and two GMA welding power sources, Journal of Laser Applications. (2014).","van":"Seffer O, Lahdo R, Springer A, Kaierle S. Laser-GMA hybrid welding of API 5L X70 with 23 mm plate thickness using 16 kW disk laser and two GMA welding power sources. Journal of Laser Applications. 2014;","ama":"Seffer O, Lahdo R, Springer A, Kaierle S. Laser-GMA hybrid welding of API 5L X70 with 23 mm plate thickness using 16 kW disk laser and two GMA welding power sources. 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Journal of Laser Applications. doi:10.2351/1.4736588, .","havard":"A. Springer, P. Kallage, M. Hustedt, S. Barcikowski, V. Wesling, H. Haferkamp, Development of new processes for welding of thermal Al–Cu solar absorbers using diode lasers, Journal of Laser Applications. (2012).","bjps":"Springer A et al. (2012) Development of New Processes for Welding of Thermal Al–Cu Solar Absorbers Using Diode Lasers. Journal of Laser Applications.","din1505-2-1":"Springer, André ; Kallage, Peter ; Hustedt, Michael ; Barcikowski, Stephan ; Wesling, Volker ; Haferkamp, Heinz: Development of new processes for welding of thermal Al–Cu solar absorbers using diode lasers. 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