Powder Bed Spreading in Additive Manufacturing: Numerical Simulations and Experimental Study

2021 IEEE 6th International Forum on Research and Technology for Society and Industry (RTSI) Pub Date : 2021-09-06 DOI:10.1109/rtsi50628.2021.9597360

Valerio Lampitella, Marco Trofa, A. Astarita, G. D’Avino

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Abstract

Powder bed based additive manufacturing technologies allow for the production of more complex parts with overall better characteristics and are therefore of high industrial interest. However, due to an incomplete understanding of the multi-physic processes involved there are still some issues to be addressed. More specifically, in this work we will focus on the powder spreading stage. In powder bed-based technologies a thin layer of powder is deposited by a recoating device and is then processed by an energy source to obtain a layer of the final part. We use a numerical model based on the Discrete Element Method to reproduce the spreading process and propose an experimental analysis procedure to obtain data suitable for the validation of such numerical model. The experiments are carried out on a purposely designed device and both computations and experiment are referred to a single layer deposition. Being able to validate the numerical results can give way to a more confident use of DEM based models for the optimization of the spreading process and therefore improve the quality of printed parts. (Abstract)

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增材制造中的粉末床铺展:数值模拟与实验研究

基于粉末床的增材制造技术允许生产更复杂的零件，具有更好的整体特性，因此具有很高的工业价值。然而，由于对所涉及的多物理场过程的理解不完全，仍然有一些问题需要解决。更具体地说，在这项工作中，我们将重点关注粉末扩散阶段。在基于粉末床的技术中，通过重涂装置沉积薄层粉末，然后通过能量源处理以获得最终部件的一层。我们使用基于离散元法的数值模型再现了扩散过程，并提出了一种实验分析程序，以获得适合该数值模型验证的数据。实验是在一个专门设计的装置上进行的，计算和实验都是指单层沉积。能够验证数值结果可以让位于更自信地使用基于DEM的模型来优化扩散过程，从而提高打印部件的质量。(抽象)

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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2021 IEEE 6th International Forum on Research and Technology for Society and Industry (RTSI)

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