Fast cure of stable semi-pregs via VBO cure

IF 1.8 Q3 ENGINEERING, MANUFACTURING

Advanced Manufacturing: Polymer & Composites Science Pub Date : 2020-12-29 DOI:10.1080/20550340.2020.1869891

D. Bender, T. Centea, S. Nutt

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引用次数: 6

Abstract

Abstract To address the need for increased efficiency in high performance composite processing, a vacuum bag only (VBO) semi-preg was designed, modeled, and evaluated. The semi-preg featured a vinyl hybrid resin formulated for rapid cure. A model was developed to describe the kinetic behavior of the resin, and then was employed to guide the design of efficient cure cycles. The semi-preg featured a discontinuous distribution of resin on the fiber bed. The format imparted high through-thickness air permeability by virtue of the multitude of air evacuation pathways with short breath-out distances relative to conventional out-of-autoclave prepregs (OoA). The kinetic model was used to create a test matrix of panels from the semi-pregs. Microstructural quality, interlaminar shear strength, and glass transition temperature were compared to a control panel with a longer, conventional cure cycle. The results demonstrated that fast-cure resins can be used in conjunction with cure modeling and semi-preg formats to design appropriate VBO cure cycles that consistently yield parts with low defect contents without autoclaves. Graphical Abstract

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VBO固化稳定半妊娠的快速固化

摘要:为了解决高性能复合材料加工中提高效率的需求，设计了一种真空袋(VBO)半浸料，并对其进行了建模和评估。该半浸渍料采用快速固化的乙烯基混合树脂配制。建立了描述树脂动力学行为的模型，并用于指导高效固化周期的设计。半浸料的特点是树脂在纤维床上的不连续分布。与传统的高压灭菌器外预浸料(OoA)相比，由于大量的空气排出路径与短的呼出距离，该格式赋予了高透厚的透气性。利用该动力学模型建立了半胎板的测试矩阵。微结构质量、层间剪切强度和玻璃化转变温度与常规固化周期较长的控制板进行了比较。结果表明，快速固化树脂可以与固化建模和半预浸成型结合使用，以设计适当的VBO固化周期，从而在没有高压灭菌器的情况下始终产生低缺陷含量的零件。图形抽象

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