The effect of in-source spatial beam shaping on the laser welding of e-mobility metals and alloys

Procedia CIRP Pub Date : 2024-01-01 DOI:10.1016/j.procir.2024.08.063

Francesco Galbusera , Giulio Borzoni , Simone D’Arcangelo , Leonardo Caprio , Barbara Previtali , Ali Gökhan Demir

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引用次数: 0

Abstract

Electromobility applications require several welded connections using demanding materials often in dissimilar combinations. Copper, aluminium, or steel alloys are laser welded for energy storage and traction related components. On the one hand, high power fiber laser sources provide in-source beam shaping solutions able to modify the irradiance profile towards ring-shaped beams. On the other hand, research focused on the effect of the beam shapes on the melting mechanisms and process quality is still in progress. This work studies the effect of different beam profiles on AISI301LN, AA6082 and pure Cu with a 5 kW fiber laser. Linear trends of power over penetration depth as a function of speed confirms the validity of employing the lumped heat capacity model for ring-shaped beams. Moreover, the specific melting fluence is observed to exhibit an exponential decaying trend with the proportion of power allocated in the fiber core, irrespective of tested material.

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源内空间光束整形对电动汽车金属和合金激光焊接的影响

电动汽车应用需要使用一些焊接连接件，这些连接件使用的材料要求很高，通常是不同的材料组合。铜、铝或钢合金被激光焊接用于储能和牵引相关部件。一方面，高功率光纤激光源提供了源内光束整形解决方案，能够将辐照度轮廓修改为环形光束。另一方面，关于光束形状对熔化机制和加工质量影响的研究仍在进行中。本研究使用 5 kW 光纤激光器研究了不同光束轮廓对 AISI301LN、AA6082 和纯铜的影响。功率与穿透深度的线性趋势是速度的函数，这证实了对环形光束采用叠加热容量模型的有效性。此外，还观察到特定熔化通量随光纤纤芯中分配的功率比例呈指数衰减趋势，与测试材料无关。

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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来源期刊

Procedia CIRP

CiteScore

3.80

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0.00%

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