期刊
MATERIALS
卷 14, 期 21, 页码 -出版社
MDPI
DOI: 10.3390/ma14216446
关键词
magnesium alloys; precision milling; dimensional accuracy; surface roughness
This study investigates a precision milling process using conventional end mills and a standard CNC machine tool, showing that this method can produce components with small scatter in dimension values and high accuracy levels. Additionally, the results demonstrate that the type of tool coating and variations in technological parameters can impact the dimensional accuracy and surface quality obtained.
This study investigates a precision milling process conducted with the use of conventional end mills and a standard CNC (Computer Numerical Control) machine tool. Milling tests were performed on samples of AZ91D magnesium alloy using TiB2- and TiAlN-coated three-edge end mills measuring 16 mm in diameter. The following technological parameters were made variable: cutting speed, feed per tooth and axial depth of cut. The effects of precision milling were evaluated by analysing the scatter of dimension values obtained in successive tool passes. In addition to that, deviations from the assumed nominal depth as well as obtained ranges of dimension varation were analysed. The study also examined surface quality obtained in the precision milling process, based on the basic surface roughness parameters: Ra, Rz and RSm. Results have confirmed that the use of conventional cutting tools and a standard CNC machine tool makes it possible to manufacture components characterized by relatively small scatter of dimension values and high accuracy classes. Additionally, the results have shown that the type of tool coating and variations of individual technological parameters exert impact on the dimensional accuracy and surface quality obtained.
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