Regression and Artificial Intelligence Models to Predict the Surface Roughness in Additive Manufacturing

Applications of Artificial Intelligence in Additive Manufacturing Pub Date : 1900-01-01 DOI:10.4018/978-1-7998-8516-0.ch003

Mohamed Hamoud Ahmed, A. Barakat, Abuubakr Ibrahim Abdelwahab

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引用次数: 1

Abstract

In additive manufacturing (AM), it is necessary to study the surface roughness, which affected the building parameters such as layer thickness and building orientation. Some AM machines have minimum layer thickness that doesn't satisfy the desired roughness. Also, it produces a fine surface that isn't required. This increases the building time and cost without any benefits. To overcome these problems and achieve a certain surface roughness, a prediction model is proposed in this chapter. Regression models were used to predict the surface roughness through the building orientation. ANN was used to predict the surface roughness through the building orientation and the layer thickness together. ANN was constructed based on experimental work that study the effect of layer thickness and building orientation on the surface roughness. Some data were used in the training process and others were used in the verification process. The results show that the layer thickness parameter has an effect more than the building orientation parameter on the surface roughness.

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回归和人工智能模型预测增材制造中的表面粗糙度

在增材制造(AM)中，有必要对表面粗糙度进行研究，因为表面粗糙度会影响层厚度和构造方向等构造参数。一些增材制造机器的最小层厚度不能满足期望的粗糙度。此外，它可以产生不需要的良好表面。这增加了建造时间和成本，却没有任何好处。为了克服这些问题，达到一定的表面粗糙度，本章提出了一种预测模型。采用回归模型通过建筑物朝向预测表面粗糙度。利用人工神经网络通过建筑物的朝向和层厚共同预测表面粗糙度。在实验研究了层厚和建筑方向对表面粗糙度影响的基础上，构建了人工神经网络。一些数据用于训练过程，另一些数据用于验证过程。结果表明，层厚参数对表面粗糙度的影响大于建筑方向参数。

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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Applications of Artificial Intelligence in Additive Manufacturing

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