In recent years, laser processes have taken an ever-increasing market share in the manufacture of components. The development of new, improved beam sources with corresponding systems technology and the decreasing investment costs of the beam sources are important keys to this success. Particularly, high frequency beam oscillation has great potential in laser beam welding and cutting. The main obstacle for the widespread breakthrough of high frequency (HF) beam oscillation is the still insufficient understanding of the underlying physical mechanisms. Gaining a deeper insight is essential for process optimization. The in situ observation with x rays enables the visualization and analysis of these highly dynamic processes inside the workpiece. The goal of the performed experiment described in this paper was to in situ analyze the structural evolution of and defect generation in laser welding beads of different aluminum alloys. A fiber laser (max. 600 W, cw output power) including a beam scanner control system for rapid beam guidance was used. Of general interest was the comparison between static and oscillated beam guidance and the effects on the joining procedure. This paper shows the initial results of the analysis of the melt pool behavior and seam formation as well as the formation of seam irregularities during the laser process. In the simplest case, radiographs were taken, i.e., 2D projections of the x-ray absorption coefficient distribution within a material. Thereby, recordings from 10 000 up to 40 000 fps could be generated. Furthermore, tomoscopies—the continuous acquisition of tomographic (3D) images, up to 100 tomograms per second—could be generated with proven equipment, whose main components are a high-speed rotation stage and a camera system. The findings will help to get a better understanding of keyhole phenomena as well as effects of turbulent melt flow such as pore formation and guide to solutions for preventing them. Hence, initial results of high frequency beam oscillation processes including melt pool degassing and porosity reduction will be shown and discussed.
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February 2021
Research Article|
December 28 2020
In situ observation with x-ray for tentative exploration of laser beam welding processes for aluminum-based alloys
Stephan Börner;
Stephan Börner
1
Fraunhofer IWS Dresden
, Winterbergstrasse 28, 01277 Dresden, Germany
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Dirk Dittrich;
Dirk Dittrich
1
Fraunhofer IWS Dresden
, Winterbergstrasse 28, 01277 Dresden, Germany
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Philipp Mohlau;
Philipp Mohlau
1
Fraunhofer IWS Dresden
, Winterbergstrasse 28, 01277 Dresden, Germany
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Christoph Leyens
;
Christoph Leyens
1
Fraunhofer IWS Dresden
, Winterbergstrasse 28, 01277 Dresden, Germany
2
Technische Universität Dresden
, 01062 Dresden, Germany
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Francisco García-Moreno
;
Francisco García-Moreno
3
Helmholtz-Zentrum Berlin für Materialien und Energie
, Hahn-Meitner-Platz 1, 14109 Berlin, Germany
4
Technische Universität Berlin
, Strasse des 17. Juni 135, 10623 Berlin, Germany
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Paul Hans Kamm
;
Paul Hans Kamm
3
Helmholtz-Zentrum Berlin für Materialien und Energie
, Hahn-Meitner-Platz 1, 14109 Berlin, Germany
4
Technische Universität Berlin
, Strasse des 17. Juni 135, 10623 Berlin, Germany
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Tillmann Robert Neu
;
Tillmann Robert Neu
3
Helmholtz-Zentrum Berlin für Materialien und Energie
, Hahn-Meitner-Platz 1, 14109 Berlin, Germany
4
Technische Universität Berlin
, Strasse des 17. Juni 135, 10623 Berlin, Germany
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Christian Matthias Schlepütz
Christian Matthias Schlepütz
5
Paul Scherrer Institute
, 5232 Villigen, Switzerland
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Note: Paper published as part of the special topic on Proceedings of the International Congress of Applications of Lasers & Electro-Optics 2020.
J. Laser Appl. 33, 012026 (2021)
Article history
Received:
November 30 2020
Accepted:
November 30 2020
Citation
Stephan Börner, Dirk Dittrich, Philipp Mohlau, Christoph Leyens, Francisco García-Moreno, Paul Hans Kamm, Tillmann Robert Neu, Christian Matthias Schlepütz; In situ observation with x-ray for tentative exploration of laser beam welding processes for aluminum-based alloys. J. Laser Appl. 1 February 2021; 33 (1): 012026. https://doi.org/10.2351/7.0000315
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