共固化围巾修补的现场分析

IF 1.8 Q3 ENGINEERING, MANUFACTURING Advanced Manufacturing: Polymer & Composites Science Pub Date : 2022-08-08 DOI:10.1080/20550340.2022.2106347

D. Bender, T. Centea, S. Nutt

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引用次数: 1

摘要

摘要为了满足高质量现场修复复合材料结构的需求，设计、生产并评估了一种纯真空袋(VBO)预浸料。该预浸料具有半预浸料格式和室温稳定的树脂。与传统的边缘呼吸式VBO预浸料相比，该格式提供了多种通道，呼出距离更短，从而提高了透层透气性。设计了一种带有现场观察窗口的定制斜切修复工具，用于分析修复过程中的固化过程。比较了半浸板与双真空减胀(DVD)工艺湿铺环氧树脂板的显微组织质量、层间剪切强度和玻璃化转变温度。半浸渍格式有效地降低了现场围护板的孔隙率，当与新材料系统一起使用时，它是DVD和湿铺层的可行替代方案。图形抽象

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In-situ analysis of cocured scarf patch repairs

Abstract To address the need for high-quality in-field repair of composite structures, a vacuum-bag-only (VBO) prepreg was designed, produced, and evaluated. The prepreg featured semi-preg formatting and a room-temperature-stable resin. The format provided a multitude of pathways with much shorter breathe-out distances relative to conventional, edge-breathing VBO prepregs, and thus enhanced through-thickness air permeability. A custom-built scarfed repair tool with an in-situ observation window was designed and employed to analyze the cure process during a repair. Microstructural quality, interlaminar shear strength, and glass transition temperature of semi-preg panels were compared to wet-laid epoxy panels processed with double vacuum debulking (DVD). The semi-preg formatting effectively reduced porosity for in-field scarf panels, and when used with the new material system, presents a viable alternative to DVD and wet layup. GRAPHICAL ABSTRACT

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