Thermal Fields in Laser Cladding Processing: A “Fire Ball” Model. A Theoretical Computational Comparison, Laser Cladding versus Electron Beam Cladding

Nonlinear Optics - From Solitons to Similaritons Pub Date : 2019-08-19 DOI:10.5772/INTECHOPEN.88710

M. Oane, I. Mihăilescu, C. Ristoscu

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引用次数: 1

Abstract

Laser cladding processing can be found in many industrial applications. A lot of different materials processing were studied in the last years. To improve the process, one may evaluate the phenomena behaviour from a theoretical and computational point of view. In our model, we consider that the phase transition to the melted pool is treated using an absorption coefficient which can underline liquid formation. In the present study, we propose a semi-analytical model. It supposes that melted pool is in first approximation a “sphere”, and in consequence, the heat equation is solved in spherical coordinates. Using the Laplace transform, we will solve the heat equation without the assumption that “time” parameter should be interpolated linearly. 3D thermal graphics of the Cu substrate are presented. Our model could be applied also for electron cladding of metals. We make as well a comparison of the cladding method using laser or electron beams. We study the process for different input powers and various beam velocities. The results proved to be in good agreement with data from literature.

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激光熔覆过程中的热场:一个“火球”模型。激光熔覆与电子束熔覆的理论计算比较

激光熔覆加工可以在许多工业应用中找到。在过去的几年里研究了许多不同的材料加工。为了改进这一过程，人们可以从理论和计算的角度来评估现象的行为。在我们的模型中，我们考虑使用可以强调液体形成的吸收系数来处理向熔池的相变。在本研究中，我们提出了一个半解析模型。它假定熔池近似为一个“球体”，因此，热方程在球坐标下求解。利用拉普拉斯变换，我们将求解热方程，而不假设“时间”参数应该线性内插。给出了铜衬底的三维热图形。我们的模型也适用于金属的电子包层。并对激光和电子束熔覆法进行了比较。我们研究了不同输入功率和不同波束速度下的过程。结果证明与文献数据吻合良好。

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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Nonlinear Optics - From Solitons to Similaritons

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