Comparative Analysis of Burrs in UD-CFRP Composites Using Advanced Hole Machining Technologies

IF 0.5 Q4 ENGINEERING, CHEMICAL
A. Helle, C. Pereszlai, András Gödri, N. Geier
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引用次数: 0

Abstract

Machining of carbon fibre reinforced polymer (CFRP) composites is challenging due to their inhomogeneous and anisotropic structure as well as the strong effect of the carbon fibres on wear. Burrs are critical machining-induced macro-geometrical defects in the case of the machining of CFRP composites, which may lead to assembly difficulties. Nowadays, although novel hole-machining technologies reduce the likelihood of burrs occurring, these technologies are often more costly and require longer machining times. The current experimental study focuses on the analysis of burrs induced by advanced hole machining technologies (helical milling, tilted helical milling and wobble milling) and comparison with a conventional one (conventional drilling).A total of 32 experiments were carried out in a VHTC 5-axis machining centre using uncoated solid carbide end mills. Furthermore, these technologies are compared and discussed based on the burrs experienced and average material removal rate (AMRR). Experimental results show that conventional drilling caused the lowest amount of burrs, followed by wobble milling, tilted helical milling and helical milling. Even though wobble milling is one of the most advantageous technologies in terms of burrs, the AMRR of conventional drilling is twenty times larger than that of wobble milling, therefore, the further development of wobble milling is recommended.
先进孔加工技术对UD-CFRP复合材料毛刺的对比分析
碳纤维增强聚合物(CFRP)复合材料由于其非均质和各向异性结构以及碳纤维的强磨损效应,使其加工具有挑战性。毛刺是碳纤维复合材料加工过程中产生的一种重要的宏观几何缺陷,它会给复合材料的装配带来困难。如今,虽然新的孔加工技术降低了毛刺发生的可能性,但这些技术往往成本更高,需要更长的加工时间。目前的实验研究重点是分析先进的孔加工技术(螺旋铣削、倾斜螺旋铣削和摆动铣削)所产生的毛刺,并与传统的孔加工技术(常规钻孔)进行比较。采用无涂层硬质合金立铣刀在VHTC五轴加工中心进行了32次试验。此外,根据毛刺经历和平均材料去除率(AMRR)对这些技术进行了比较和讨论。实验结果表明,常规钻削对毛刺的影响最小,其次是摆动铣削、倾斜螺旋铣削和螺旋铣削。虽然摆动铣削是一种最具优势的毛刺削削技术,但传统钻削的AMRR是摆动铣削的20倍,因此,摆动铣削的进一步发展是值得推荐的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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自引率
50.00%
发文量
9
审稿时长
6 weeks
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