Prediction of warping in thermoplastic AFP-manufactured laminates through simulation and experimentation

IF 1.8 Q3 ENGINEERING, MANUFACTURING Advanced Manufacturing: Polymer & Composites Science Pub Date : 2021-12-16 DOI:10.1080/20550340.2021.2015212

D. Fricke, L. Raps, I. Schiel

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引用次数: 1

Abstract

Abstract The thermoplastic automated fiber placement (T-AFP) process is a non-autoclave method for in situ consolidation of thermoplastic composite material on a piecewise constructed laminate. High thermal gradients and nonlinear material behavior, especially due to crystallization, make predictions of process-induced stress and warping difficult. This article describes a method for simulating parts manufactured by T-AFP using a detailed material model to capture the dynamic nature of the process. The material model is flexible and can be altered to describe different semi-crystalline matrices, in this study focusing on low-melt polyaryletherketone. Two laminate panels are simulated within this work and assess the impact of a heated tooling on overall part warping. Panel warping is validated by performing 3D-scans of T-AFP-manufactured laminates produced using the same parameters as the simulation. The results show a good match between numeric and experimental warping, especially for heated tools, thus, providing a useful method for predicting laminate warping and reducing the demand on manufacturing experimentation. Graphical Abstract

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通过模拟和实验预测热塑性聚丙烯复合材料的翘曲

摘要:热塑性纤维自动铺放(T-AFP)工艺是一种非高压釜原位固结热塑性复合材料在分段构建层压板上的方法。高热梯度和非线性材料行为，特别是由于结晶，使得过程诱导应力和翘曲的预测变得困难。本文描述了一种方法来模拟零件制造的T-AFP使用详细的材料模型来捕捉过程的动态性质。材料模型是灵活的，可以改变以描述不同的半结晶基质，在本研究中重点是低熔体聚芳醚酮。在这项工作中模拟了两个层压板，并评估了加热模具对整体零件翘曲的影响。通过使用与模拟相同的参数对t - afp制造的层压板进行3d扫描，验证面板翘曲。结果表明，数值翘曲与实验翘曲吻合较好，特别是对于加热工具，从而为层合板翘曲预测和减少制造实验需求提供了一种有用的方法。图形抽象

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