Analysis of Laser Heat Distribution in Al-Cu Welding

Journal of the Korean Society of Manufacturing Process Engineers Pub Date : 2021-02-28 DOI:10.14775/KSMPE.2021.20.02.001

H. Choi

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Abstract

A computer simulation was performed to study the effectiveness of temperature on the type of laser heat source in the context of the heterogeneous welding of aluminum and copper materials. Three different types of heat sources were used in the computer simulation: 1) Single Beam Straight Scan, 2) Single Beam Wobble Scan, and 3) Dual Beam Straight Scan. Among these sources, dual beam straight scan was found to be the most effective from the viewpoint of heat source control. Because the difference between the melting temperatures of copper and aluminum is approximately 400°C, a clear separation of heating temperature was required, and the dual beam straight scan provided superior controllability in this regard. When using the dual beam, the temperature of the 90:10 split was considerably easier to control than that of the 50:50 split. The optimal offset was calculated to be 4 mm off to the copper side, where the melting temperature and thermal conductivity were higher. In this manner, computer simulation was effectively used for determining the optimal laser beam hear source control without performing an actual laser welding experiment.

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铝铜焊接激光热分布分析

采用计算机模拟的方法研究了温度对铝、铜材料非均质焊接激光热源类型的影响。计算机模拟中使用了三种不同类型的热源:1)单束直扫，2)单束摆动扫描，3)双束直扫。从热源控制的角度来看，双光束直扫是最有效的。由于铜和铝的熔化温度相差约400°C，因此需要明确分离加热温度，而双光束直扫在这方面提供了优越的可控性。当使用双光束时，90:10分裂的温度比50:50分裂的温度更容易控制。计算出最佳偏移量为铜侧4毫米，因为铜侧的熔化温度和导热系数较高。这样，在不进行实际激光焊接实验的情况下，计算机模拟有效地确定了最佳的激光束声源控制。

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 the Korean Society of Manufacturing Process Engineers

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