Influence of spatial power modulation on pore and crack formation in laser beam welding of aluminum

Heinen, Paul; Eichler, Fabian; Haeusler, A.; Olowinsky, Alexander; Aden, Mirko; Gillner, Arnold; Poprawe, Reinhart

doi:10.2351/1.5085460

Cited by 6 publications

(2 citation statements)

References 9 publications

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“…In conclusion, pores formed in the weld pool through the evaporation of the lubricant, which was enclosed in the gap. These findings explained why these pores cannot be avoided by process strategies like high-speed welding or beam oscillation, which are known to impede the formation of process pores [3,15,16,25]. The effective range of these strategies is limited to the stabilization of the capillary; thus, these optimizations do not impede the formation and growth of pores in the weld pool behind the capillary.…”

Section: Stabillity Of the Capillarymentioning

confidence: 99%

High-Speed X-Ray Investigation of Pore Formation during Full Penetration Laser Beam Welding of AA6016 Aluminum Sheets Contaminated with Lubricants

et al. 2020

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Featured Application: Authors are encouraged to provide a concise description of the specific application or a potential application of the work. This section is not mandatory. Abstract:The presence of lubricants on the surface of sheets favors the formation of pores in laser welded seams. This formation process was investigated by means of high-speed X-ray imaging of the full penetration laser beam welding process of two AA6016 aluminum sheets in overlap configuration. The measurement of the growth velocity of the bubbles indicated their sudden growth once they started to form. Further analysis of the X-ray images identified the point of origin of the pores: a few millimeters behind the capillary between the two aluminum sheets. The study shows that the lubricant does not affect the stability of the capillary, which evidences that the formation of these pores is not caused by the fluctuations of the capillary. These results explain for the first time why pore formation cannot be avoided by process strategies, which stabilize the capillary, when welding uncleaned sheets.

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Section: Stabillity Of the Capillarymentioning

confidence: 99%

High-Speed X-Ray Investigation of Pore Formation during Full Penetration Laser Beam Welding of AA6016 Aluminum Sheets Contaminated with Lubricants

et al. 2020

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“…The superposed movement leads to a complicated pattern of the beam path, influencing quality and dimensions of the weld seam. Although, this technique has been introduced a couple of years ago it is still a topic of investigation [6,8,9].…”

Section: Introductionmentioning

confidence: 99%

Seam Formation in Laser Beam Micro-Welding with Spatial Power Modulation

Aden

Heinen

Olowinsky

2021

Lasers Manuf. Mater. Process.

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When laser sources of high brilliance are used for the micro-welding of metals, small seam dimensions are generated. If the spatial power is modulated by a superposition of the linear feed rate and a circular-oscillatory movement of high frequency, the width of the seam is controlled by the amplitude of the circular movement. In this study, the irradiation pattern of the seam was calculated and reveals that some spots of the seam area are not irradiated, while other have been irradiated several times. The seam shapes were visualized with micro cross-sections for different laser powers, linear feed rates and oscillatory amplitudes. Thermal simulations were made to discuss the different seam shapes. A consequence of the oscillatory movement is the appearance of different solidification fronts, which are visible in the micro cross-sections.

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Porosity suppression of nickel-based superalloy by modulated base temperature in laser welding and mechanism analysis

Yue,

Pei,

et al. 2024

Journal of Materials Research and Technology

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Influence of spatial power modulation on pore and crack formation in laser beam welding of aluminum

Cited by 6 publications

References 9 publications

High-Speed X-Ray Investigation of Pore Formation during Full Penetration Laser Beam Welding of AA6016 Aluminum Sheets Contaminated with Lubricants

High-Speed X-Ray Investigation of Pore Formation during Full Penetration Laser Beam Welding of AA6016 Aluminum Sheets Contaminated with Lubricants

Seam Formation in Laser Beam Micro-Welding with Spatial Power Modulation

Porosity suppression of nickel-based superalloy by modulated base temperature in laser welding and mechanism analysis

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