Quality Prediction of Continuous Ultrasonic Welded Seams of High-Performance Thermoplastic Composites by means of Artificial Intelligence

Procedia manufacturing Pub Date : 2021-01-01 DOI:10.1016/j.promfg.2021.10.017

D. Görick , L. Larsen , M. Engelschall , A. Schuster

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引用次数: 5

Abstract

Thermoplastic composites (TCs) are a famous choice when it comes to high performance designs for industrial applications. Since the growing demand on the use of this material, it is important to be able to evaluate suitable processing technologies. One of those technologies is continuous ultrasonic welding (CUSW) which creates continuous joints, also called seams, between two or more TCs parts. In CUSW mechanical oscillations are applied to the material and result in melting and connecting of the welding parts.

The approach to predict joint strength (qualities) of continuous ultrasonic welded TCs by training different neural networks is investigated in this study. Quality class prediction around 72 % accuracy is achieved with a fully connected neural network. Concluding, quality prediction of welded TCs with the help of artificial intelligence seems to be a suitable approach for quality observation but more research could lead to more reliable neural networks for industrial applications.

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基于人工智能的高性能热塑性复合材料连续超声焊缝质量预测

当涉及到工业应用的高性能设计时，热塑性复合材料(tc)是一个著名的选择。由于对这种材料的使用需求不断增长，因此能够评估合适的加工技术非常重要。其中一项技术是连续超声波焊接(CUSW)，它在两个或多个tc部件之间产生连续的连接，也称为接缝。在CUSW中，机械振荡作用于材料，导致焊接件的熔化和连接。研究了通过训练不同的神经网络来预测连续超声焊接TCs接头强度(质量)的方法。通过完全连接的神经网络，可以实现约72%的准确率。综上所述，在人工智能的帮助下，焊接tc的质量预测似乎是一种适合质量观察的方法，但更多的研究可以为工业应用带来更可靠的神经网络。

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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Procedia manufacturing

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