Effects of Welding Parameters on Droplet Transfer and Bead Geometry in Laser Welding with Aluminum and Stainless Steel Filler Wires

Journal of welding and joining (Online) Pub Date : 2023-10-31 DOI:10.5781/jwj.2023.41.5.4

Joonghyeon Shin, Seung Hwan Lee, Minjung Kang

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Abstract

Laser welding is increasingly used in industries because it allows high production cycle time and single-sided welding, but is characterized by a high sensitivity to joint preparation. By inserting filler wires, the sensitivity to joint preparation can be suppressed. In this study, the effect of welding variables on the bead geometry and melted droplet transfer were investigated. Two wires with different thermal diffusivities and densities were selected: stainless steel (STS) and aluminum (Al) wires. According to the wire feeding angle, the melting area tended to differ between the STS and Al wires. This implied that the wire feeding angle had to consider the absorption rate of the material for the laser wavelength. With an increase in the distance between the wire tip and the substrate, the dominant force acting on the droplet was changed from surface tension to gravity. Therefore, the distance was considered as a major factor in determining the droplet transfer mode. In all cases, the droplet transfer period exhibited relatively small deviation when the wire feeding direction was leading. Furthermore, the focal length effects on droplet transfer were irrelevant.

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焊接参数对铝、不锈钢焊丝激光焊接熔滴转移及焊头几何形状的影响

激光焊接因其生产周期时间短、单面焊接等优点，在工业中得到越来越多的应用，但其特点是对接头制备的灵敏度高。通过插入填充丝，可以抑制对关节制备的敏感性。研究了焊接变量对焊头几何形状和熔滴传递的影响。选择了两种具有不同热扩散率和密度的金属丝:不锈钢丝(STS)和铝丝(Al)。根据送丝角度的不同，STS和Al丝的熔化面积有不同的趋势。这意味着送丝角必须考虑材料对激光波长的吸收率。随着丝尖与基体之间距离的增加，作用在液滴上的主导力由表面张力变为重力。因此，距离被认为是决定液滴传递方式的主要因素。在所有情况下，当送丝方向为前导时，液滴传递周期的偏差较小。此外，焦距对液滴转移的影响无关。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of welding and joining (Online)

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