The Effect of Blue and Infrared Laser Melting Frequency on Oxide Morphology in 304L

Jonathan S. Paras, Randy D. Curry, James A. Ohlhausen, Michael J. Abere
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Abstract

Continuous Wave Laser Beam (LB) melting offers control over the localized heating and cooling of melt pools for welding, brazing, additive manufacturing, and solidification. Research into laser-liquid metal interactions have primarily focused on the heat and mass transport under large thermal gradients imposed by the localized melting conditions. However, little research has been conducted into varying input laser frequency and scan rate at fixed absorption to understand the effects of laser-light on surface oxide formation. This article conducts laser melting of 304L under Blue (450 nm) and Infrared (IR, 1064 nm) laser frequencies and examines their impact on laser oxide thickness, chemistry, and coloration. We find that laser frequencies induce changes in the oxide layer thickness and chemistry that cannot be explained using conventional thermal absorption shifts and fluid dynamics. We suggest that light coupling may have thermodynamic implications for the chemical potential of the liquid metal which may drive the observed phase behavior.
蓝色和红外激光熔化频率对 304L 氧化物形态的影响
连续波激光束(LB)熔化可控制熔池的局部加热和冷却,用于焊接、钎焊、增材制造和凝固。对激光与液态金属相互作用的研究主要集中在局部熔化条件下产生的大热梯度下的热量和质量传输。然而,在固定吸收率下改变输入激光频率和扫描速率以了解激光对表面氧化物形成的影响的研究却很少。本文在蓝光(450 nm)和红外(IR,1064 nm)激光频率下对 304L 进行了激光熔化,并研究了它们对激光氧化物厚度、化学性质和颜色的影响。我们发现,激光频率会引起氧化层厚度和化学性质的变化,而这些变化无法用传统的热吸收位移和流体动力学来解释。我们认为,光耦合可能会对液态金属的化学势产生热力学影响,从而推动观察到的相行为。
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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