The influence of preform joints on the processing of RTM composites

D.A Steenkamer , D.J Wilkins , V.M Karbhari
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引用次数: 12

Abstract

In order to develop preforms for large complex parts capable of meeting the demands of global and local loading conditions, resin transfer moulded parts are typically broken down into multiple elements. A separate preform is developed for each of these sub-sections, which are then assembled in the mould cavity and combined by the moulding process. While the decomposition of a structure into sub-sections eases the burden on the preforming operation(s) to form the desired shape with the appropriate microstructure, it also raises the issue of joining these multi-element preform sections. In previous composites applications, the presence of a joint was traditionally considered only in terms of its influence on the performance of the part, since the fibre and resin were already combined into pre-impregnated tape. However, resin transfer moulding (RTM) is a two-step process: fibre preforming followed by resin impregnation and cure. Since the resin must flow through the preform and wet-out the individual fibre bundles, the inclusion of a preform joint in the design of an RTM part's microstructure must be considered in terms of processing (resin flow and wet-out) as well as performance. In this paper we examine the influence of preform joint on resin flow through both computational and experimental approaches. The implications of such joints on the design and processing of RTM parts is discussed.

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预成形接头对RTM复合材料加工的影响
为了开发能够满足全局和局部加载条件要求的大型复杂零件的预成形件,树脂传递模塑件通常被分解为多个元素。为每一个子部分开发一个单独的预制体,然后在模腔中组装并通过成型过程组合。虽然将结构分解成小截面减轻了预成形操作的负担,以形成具有适当微观结构的所需形状,但它也提出了连接这些多单元预成形截面的问题。在以前的复合材料应用中,由于纤维和树脂已经结合成预浸渍带,因此传统上只考虑接头的存在对部件性能的影响。然而,树脂转移模塑(RTM)是一个两步过程:纤维预成型,然后树脂浸渍和固化。由于树脂必须流经预成型体并湿化单个纤维束,因此在RTM零件微结构设计中包含预成型接头必须考虑加工(树脂流动和湿化)以及性能。本文通过计算和实验两种方法研究了预制接头对树脂流动的影响。讨论了此类接头对RTM零件设计和加工的影响。
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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