通过融合自动纤维放置(AFP)和增材制造(AM)技术制造复杂的3D复合材料

IF 1.8 Q3 ENGINEERING, MANUFACTURING
Félix Raspall, R. Velu, N. Vaheed
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引用次数: 24

摘要

自动纤维铺放(AFP)是制备聚合物基复合材料结构的一种先进方法。这种自动化技术专注于聚合物复合材料制造,用于广泛的汽车和航空航天应用。AFP过程通过将每个单独的拖尾放置在定制设计的轨迹上的可能性,提供了更高水平的定制。另一方面,增材制造(AM)方法具有制造复杂几何形状的功能性最终用户部件的潜力,从而消除了对昂贵的工具、多步骤加工和紧固件或接头的需要。本文将强调融合AFP和AM工艺以制造复杂的3D聚合物复合材料部件的潜力。这两种工艺的结合为复合材料的开发提供了一个有希望的选择,在复杂性和可定制性方面提高了复合材料结构。本文介绍了采用的研究方法,背景研究,设计,开发和建立了一个融合AM和AFP的实验工作单元,以及使用所提出的制造工艺设计复杂复合材料零件所需的设计方法。讨论了主要的挑战和机遇,例如如何缓解传统复合材料生产的限制,以及如何实现更多的设计自由。图形抽象
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fabrication of complex 3D composites by fusing automated fiber placement (AFP) and additive manufacturing (AM) technologies
Abstract Automated fiber placement (AFP) is emerging as one of the advanced methods toward fabrication of polymer matrix based composite structures. This automated technique focuses on polymer composite manufacturing for use in a wide range of automotive and aerospace applications. The AFP process offers an elevated level of customization through the possibility of placing each individual tow at custom-designed trajectories. Additive manufacturing (AM) method, on the other hand, has the potential to fabricate functional end user parts of complex geometries, thus eliminating the need for costly tooling, multi-step processing and fasteners or joints. This paper will highlight the potential of fusing AFP and AM processes to fabricate complex 3D polymer based composite parts. A combination of these two processes suggests a promising option for composite materials development, improving composite structures in terms of complexity and customizability. The paper presents the adopted research methodology, background research, the design, development and set up of an experimental workcell that fuses AM and AFP, and the design methodology which is required to design complex composite parts using the proposed manufacturing process. Main challenges and opportunities are discussed, such as how restrictions of conventional composite production can be eased, and additional freedoms of design can be achieved. GRAPHICAL ABSTRACT
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来源期刊
CiteScore
4.00
自引率
0.00%
发文量
11
审稿时长
16 weeks
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