TITANIUM BLADE MILLING WITH MINIMUM PIECE DEFORMATION BASED ON TOOL ORIENTATION

IF 0.6 Q4 ENGINEERING, MECHANICAL MM Science Journal Pub Date : 2023-11-15 DOI:10.17973/mmsj.2023_11_2023117
N. Villarrazo, G. Martinez de Pisson, P. Fernandez, O. Pereira, L. N. Lopez de Lacalle
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Abstract

This article analyses the influence of tool orientation on the geometry and surface finish obtained during the machining of thin-walled curved freeform surface parts on multitasking machining centre. These complex surfaces parts have direct application in blade manufacturing for the aeronautical sector, which has very high quality standards and are difficult to achieve. In addition, the material used is Ti6Al4V which adds a challenge due to its difficult machinability. Tool orientation has a significant effect on the accuracy of multi-axis machining reducing the theoretical force in a 6.17 % have achieved a dimensional improvement of a 7.84 %.
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基于刀具取向的最小工件变形钛刀片铣削
分析了多任务加工中心加工薄壁曲面自由曲面零件时,刀具取向对其几何形状和表面光洁度的影响。这些复杂的表面零件直接应用于航空领域的叶片制造,具有很高的质量标准,而且很难实现。此外,所使用的材料是Ti6Al4V,由于其难以加工而增加了挑战。刀具取向对多轴加工精度有显著影响,理论力降低了6.17%,尺寸提高了7.84%。
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来源期刊
MM Science Journal
MM Science Journal ENGINEERING, MECHANICAL-
CiteScore
1.30
自引率
42.90%
发文量
96
期刊最新文献
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