Parameters Selection for the Production of Fully Dense Metals Processed by Selective Laser Melting

Q4 Engineering

Annals of Dunarea de Jos University of Galati, Fascicle XII, Welding Equipment and Technology Pub Date : 2022-12-15 DOI:10.35219/awet.2022.09

M. Ben Slama, S. Chatti, Lioua Kolsi

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Abstract

Selective laser melting (SLM) presents significant assets for both industrial and academic fields. However, the process parameters selection is yet challenging. It presents tens of parameters to be carefully selected, including laser power and speed, bed thickness, hatching space, and other parameters, for the manufacturing of parts with high density. This paper provides a deeper understanding of the processing parameters’ effect on the evolution of the product’s density. A series of numerical simulations of porosity is achieved on Ansys Additive© software and it shows the evolution of the relative density at different laser powers and scan speeds. Numerical results show that low laser power and accelerated scan lead to the generation of a small melt pool, and consequently low density. In the opposite case, at high power and slow scan, the created melt pool is wide enough to avoid porosity and generate fully dense products. The product density is proportionally related to the melt pool size. Hence, it could be estimated through the correlation with the melt pool width, which enables the perfect selection of the hatching space for the selected set of parameters.

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选择性激光熔炼生产全致密金属的参数选择

选择性激光熔化（SLM）为工业和学术领域提供了重要的资产。然而，工艺参数的选择仍然具有挑战性。它提供了数十个需要仔细选择的参数，包括激光功率和速度、床层厚度、阴影空间和其他参数，用于制造高密度零件。本文对加工参数对产品密度演变的影响有了更深入的了解。在Ansys Additive©软件上对孔隙率进行了一系列数值模拟，显示了在不同激光功率和扫描速度下相对密度的演变。数值结果表明，低激光功率和加速扫描会导致小熔池的产生，从而导致低密度。在相反的情况下，在高功率和慢扫描下，产生的熔池足够宽，可以避免孔隙率并产生完全致密的产品。产品密度与熔池大小成比例相关。因此，可以通过与熔池宽度的相关性来估计，这使得能够完美地选择所选参数集的阴影空间。

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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