An Experimental Investigation into Trochoidal Milling for High-Quality GFRP Machining

机械加工 材料科学 纤维增强塑料 涂层 表面粗糙度 刀具磨损 立铣刀 碳化物 复合材料 表面光洁度 机械工程 冶金 工程类
作者
Ondřej Bílek,Martin Řezníček,Andrzej Matras,Tomáš Solařík,Lubomír Macků
出处
期刊:Materials [Multidisciplinary Digital Publishing Institute]
卷期号:18 (7): 1669-1669 被引量:2
标识
DOI:10.3390/ma18071669
摘要

This study investigates the effectiveness of trochoidal (adaptive) milling in machining Glass Fiber Reinforced Polymer (GFRP), emphasizing its potential advantages over conventional milling. Six coated solid carbide end mills, each with distinct geometries, were evaluated under identical conditions to assess the cutting forces, surface quality, dimensional accuracy, burr formation, chip size distribution, and tool wear. Trochoidal milling demonstrated shorter cycle times—up to 23% faster—and higher material removal rates (MRRs), while conventional milling provided superior dimensional control and smoother surfaces in certain fiber-sensitive regions. A four-tooth cutter with a low helix angle (10°) and aluminum-oxide coating delivered the best overall performance, balancing minimal tool wear with high-quality finishes (arithmetic mean roughness, Ra, as low as 1.36 μm). The results indicate that although conventional milling can exhibit a 25%-lower RMS cutting force, its peak forces and extended machining times may limit the throughput. Conversely, trochoidal milling, when coupled with an appropriately robust tool, effectively manages the cutting forces, improves the surface quality, and reduces the machining time. Most chips produced were less than 11 μm in size, highlighting the need for suitable dust extraction. Notably, a hybrid approach—trochoidal roughing followed by conventional finishing—offers a promising method for achieving both efficient material removal and enhanced dimensional accuracy in GFRP components.
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