An explicit finite element solution for the forming prediction of continuous fibre-reinforced thermoplastic sheets

A.K. Pickett, T. Queckbörner, P. De Luca, E. Haug
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引用次数: 53

Abstract

The pressure forming, or thermoforming, of preconsolidated continuous fibre-reinforced thermoplastic sheets offers a promising fabrication option for structural composite components. Modern thermoplastic polymers have improved mechanical and physical properties compared with their thermoset counterparts and, perhaps most important for industry, offer the possibility for rapid part production. As in tradational metal stamping, the current process and part design for thermoforming rely heavily on ‘trial and error’ practices which are costly, inefficient and provide little scope for optimization and understanding of the forming process. For efficient thermoforming information regarding temperature and pressure distribution, part thickness distribution, fibre orientations and potential regions of material defects must be determined. This paper presents some first results of an explicit finite element solution to simulate the forming process. At present a constant temperature process is assumed, however work is presently underway to include this effect.

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连续纤维增强热塑性薄板成形预测的显式有限元解
预固结连续纤维增强热塑性塑料片材的压力成型或热成型为结构复合材料部件提供了一种有前途的制造选择。与热固性聚合物相比,现代热塑性聚合物具有更好的机械和物理性能,也许对工业最重要的是,它提供了快速生产零件的可能性。与传统的金属冲压一样,目前的热成形工艺和零件设计在很大程度上依赖于“试错”的做法,这种做法成本高、效率低,而且对成形工艺的优化和理解余地很小。为了获得有关温度和压力分布、零件厚度分布、纤维取向和材料缺陷潜在区域的有效热成型信息,必须确定。本文给出了模拟成形过程的显式有限元解的初步结果。目前假定是一个恒温过程,但目前正在进行工作以包括这一效应。
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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