Quantitative Characterization of Warpage for Composite Components

CAD'21 Proceedings Pub Date : 2021-05-12 DOI:10.14733/CADCONFP.2021.192-197

É. Martin, Remus Tutunea-Fatan, R. Gergely, D. Okonski

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引用次数: 1

Abstract

Introduction: Many governments have adopted stringent emissions standards for automobiles in order to reduce the detrimental effects they have on the environment [9]. The reduction of vehicle weight is one avenue to reduce vehicle emissions [7],[13] and composite components can play a key role in many potential solutions [1]. However, there are still many challenges to be overcome when it comes to the widespread use of the composite materials, particularly with respect to the mass production of composite parts and assemblies. One option for composite part fabrication is the long fiber thermoplastic direct (LFT-D) manufacturing process. According to this technology, parts can be produced from individual matrix and fiber components. This approach eliminates the need for a semi-finished product like glass mat thermoplastic (GMT) to be acquired from a material supplier and thus translates into cost savings for the composite part manufacturer [5]. Like many other thermal forming processes, the parts fabricated through LFT-D can experience a significant amount of deformation. Warpage can make parts difficult to incorporate in downstream assemblies. However, despite the importance of this problem, the quantitative characterization of the warpage presented in the surveyed literature is relatively simplistic. While no clear metric for part warpage exists at this time, prior studies have highlighted that part warpage can be reduced by changing molding processing parameters [3],[4],[6],[10],[11]. For many of these studies, part warpage is typically evaluated by the maximum deviation between the nominal and fabricated parts. Nonetheless, while the maximum value of the deviation between the two shapes is indeed important, warpage could be defined in many other ways. One alternative is to evaluate specific regions of the part, particularly those that are involved in subsequent assembly operations. Along these lines, the current study aims to propose alternative metrics capable of evaluating part warpage.

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复合材料构件翘曲量的定量表征

导言:许多政府对汽车采用了严格的排放标准，以减少汽车对环境的有害影响[9]。减轻车辆重量是减少车辆排放的一种途径[7]，[13]，复合材料部件可以在许多潜在的解决方案中发挥关键作用[1]。然而，当涉及到复合材料的广泛使用时，仍然有许多挑战需要克服，特别是在复合材料零件和组件的大规模生产方面。复合材料部件制造的一种选择是长纤维热塑性直接(LFT-D)制造工艺。根据这项技术，零件可以由单独的基体和纤维部件生产出来。这种方法消除了从材料供应商那里购买玻璃垫热塑性塑料(GMT)等半成品的需要，从而为复合材料部件制造商节省了成本[5]。与许多其他热成形工艺一样，通过LFT-D制造的零件可能会产生大量变形。翘曲会使零件难以整合到下游组件中。然而，尽管这个问题的重要性，在调查文献中提出的翘曲的定量表征是相对简单的。虽然目前还没有明确的零件翘曲度量，但先前的研究强调，通过改变成型加工参数可以减少零件翘曲[3]，[4]，[6]，[10]，[11]。对于许多此类研究，零件翘曲通常由标称零件和制造零件之间的最大偏差来评估。尽管如此，虽然两个形状之间偏差的最大值确实很重要，但翘曲可以通过许多其他方式定义。另一种选择是评估零件的特定区域，特别是那些涉及后续组装操作的区域。沿着这些路线，目前的研究旨在提出能够评估零件翘曲的替代指标。

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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CAD'21 Proceedings

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