Automated Fiber Placement (AFP) process along with Out-of-Autoclave (OOA) prepreg technology are important to reducing costs involved in making primary aero-structures ranging from a simple flat parts to intricate three-dimensional parts. This combination promises fast, reliable and cost-effective manufacturing. Avoiding the autoclave during the curing process not only reduces the overhead costs but also opens up opportunities for the use of light weight tooling. However, lack of experience in using the AFP machine with the OOA prepreg and the susceptibility of having voids, resin-rich areas in a part manufactured by the OOA prepreg are the major roadblocks, preventing the aerospace industry from implementing this combination of AFP and OOA prepreg technologies.ududThis dissertation aims to characterize the mechanical parameters of two different OOA prepreg materials using the AFP process. Using the same OOA prepreg material, the mechanical properties and the quality of the laminates manufactured by the AFP process will be compared with the samples made by the Hand-Lay-Up process, with and without the application of external pressure during the curing process. The microstructure of all samples will be analyzed for voids, resin-rich areas and resin-starved areas. A cost model will also be generated to understand the economics associated with the AFP process and the OOA curing technique.
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机译:自动化纤维铺放(AFP)工艺以及高压釜(OOA)预浸料技术对于降低制造从简单的扁平零件到复杂的三维零件的主要航空结构所涉及的成本至关重要。这种结合保证了快速,可靠和具有成本效益的制造。在固化过程中避免使用高压釜不仅减少了间接费用,而且还为使用轻型工具提供了机会。但是,缺乏将AFP机器与OOA预浸料一起使用的经验以及容易产生空隙的问题,由OOA预浸料制造的零件中富含树脂的区域是主要障碍,阻碍了航空航天工业实现AFP和OOA的这种结合预浸料技术。 ud ud本论文旨在通过AFP工艺表征两种不同的OOA预浸料的力学参数。使用相同的OOA预浸材料,将通过AFP工艺制造的层压板的机械性能和质量与通过手工铺装工艺制造的样品进行比较,无论是否在固化过程中施加外部压力。将分析所有样品的微观结构是否有空隙,富含树脂的区域和缺乏树脂的区域。还将生成一个成本模型,以了解与AFP工艺和OOA固化技术相关的经济性。
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