Investigation on the Effects of Cutting Angles on the Burrs of Carbon Fiber Honeycomb Composites

IF 1.9 4区 工程技术 Q2 Engineering International Journal of Precision Engineering and Manufacturing Pub Date : 2024-06-28 DOI:10.1007/s12541-024-01055-y
Yongjie Bao, Zhanli Shi, Zhanxin Ma, Qihao Xu, Chen Chen, Yuxing Yang
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Abstract

Carbon fiber honeycomb composites have been widely used in various aerospace industry due to its superior mechanical properties. However, machining honeycomb composites remains a challenging task due to its difficult-to-machine properties, which can lead to serious machining issues like debonding of the honeycomb wall and burrs. Cutting angles is a key factor affecting the damage formation of the carbon fiber honeycomb composites. In order to reduce machining damages, in this study, an analytical method for calculating the cutting angles was proposed, in which the structural characteristics of the honeycomb cell and the interaction between the honeycomb wall and the cutting tool were considered. And deformations of the honeycomb wall with different configurations of cutting angles were analyzed. Then cutting experiments were conducted with different cutting directions and cutting width, which affect the cutting angles. Finally, the effects of cutting angle on the cutting forces and machining quality are discussed. The results show that larger in-plane cutting forces are beneficial to decrease the burrs of the honeycomb wall, and the quality of the machined honeycomb wall is poor when the cutting angles range from about 66° to 141°.

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切割角度对碳纤维蜂窝复合材料毛刺影响的研究
碳纤维蜂窝复合材料因其卓越的机械性能而被广泛应用于各种航空航天领域。然而,由于蜂窝复合材料难以加工的特性,加工蜂窝复合材料仍然是一项具有挑战性的任务,这可能会导致严重的加工问题,如蜂窝壁脱胶和毛刺。切削角是影响碳纤维蜂窝复合材料损伤形成的关键因素。为了减少加工损伤,本研究提出了一种计算切削角的分析方法,其中考虑了蜂窝单元的结构特征以及蜂窝壁与切削工具之间的相互作用。并分析了不同切削角配置下蜂窝壁的变形情况。然后进行了不同切割方向和切割宽度下的切割实验,切割方向和切割宽度会影响切割角度。最后,讨论了切削角对切削力和加工质量的影响。结果表明,较大的面内切削力有利于减少蜂窝壁的毛刺,而切削角在约 66° 至 141° 之间时,加工出的蜂窝壁质量较差。
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来源期刊
CiteScore
4.10
自引率
10.50%
发文量
115
审稿时长
3-6 weeks
期刊介绍: The International Journal of Precision Engineering and Manufacturing accepts original contributions on all aspects of precision engineering and manufacturing. The journal specific focus areas include, but are not limited to: - Precision Machining Processes - Manufacturing Systems - Robotics and Automation - Machine Tools - Design and Materials - Biomechanical Engineering - Nano/Micro Technology - Rapid Prototyping and Manufacturing - Measurements and Control Surveys and reviews will also be planned in consultation with the Editorial Board.
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