Maximizing the out-of-plane-permeability of preforms manufactured by dry fiber placement

IF 1.8 Q3 ENGINEERING, MANUFACTURING
Oliver Rimmel, D. Becker, P. Mitschang
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引用次数: 27

Abstract

Abstract Dry fiber placement (DFP) is a technology which enables outstandingly high mechanical performance of composite parts as preform structures with load-related fiber orientations can be created with minimum of fiber crimp. Furthermore, DFP has high cost-saving potential due to minimum material wastage during production. Recently, the efficiency has been further improved using an online binder application system, allowing the direct usage of untreated rovings instead of pre-designed rovings with binder applied by the manufacturer. Nevertheless, the poor impregnation behavior of DFP-preforms during liquid composite molding processing methods remains a main challenge. Encouraging an out-of-plane impregnation, e.g. by using a vacuum-assisted or compression resin transfer molding process, reduces the flow length within the preform and is a first step toward reducing cycle times. However, further improvements are required in order to apply DFP-preforming methods in serial production. Within this study influences on the out-of-plane permeability of DFP-preforms were investigated. The considered parameters were related to the material (e.g. binder amount) as well as the layup process and subsequent process steps.
最大限度地提高干纤维预制体的面外渗透性
摘要干纤维放置(DFP)是一种使复合材料部件具有优异机械性能的技术,它可以在最小的纤维卷曲的情况下产生与载荷相关的纤维取向的预制体结构。此外,DFP具有很高的成本节约潜力,因为在生产过程中材料浪费最小。最近,使用在线粘合剂应用系统进一步提高了效率,允许直接使用未经处理的粗纱,而不是预先设计的粗纱,由制造商应用粘合剂。然而,在液体复合成型加工方法中,dfp预制体的不良浸渍行为仍然是一个主要挑战。鼓励面外浸渍,例如通过使用真空辅助或压缩树脂传递成型工艺,减少预成型内的流动长度,是减少循环时间的第一步。然而,为了在批量生产中应用dfp预成型方法,还需要进一步的改进。在本研究中,研究了影响dfp预制体面外渗透率的因素。所考虑的参数与材料(例如粘合剂量)以及铺层工艺和随后的工艺步骤有关。
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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来源期刊
CiteScore
4.00
自引率
0.00%
发文量
11
审稿时长
16 weeks
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