Abstract
Designing the profile of cutting tools is a specific problem in manufacturing engineering. The profile of the cutting tool has a direct influence on the dimensional and shape precision of the machined parts. When it comes to cutting tools for internal turning, the problem of profile design becomes even more complex, because of the added restrictions the profile and the cutting tool itself are subjected to. Despite its importance and complexity, this problem has been rather poorly considered in the literature. Some side aspects, such as measuring the profile, its wear, and its influence on the part’s geometrical precision have been studied, but not the design process of the profiled shape of cutting edges. This research fills a gap in the literature. It considers profiled cutting tools, in general; and, in particular, investigates tilted cutting edges. The novelty of the present article lies in a method to determine the profile of cutting tools for turning inner-profiled surfaces. The method is CAD-based and provides accurate results. It considers the part’s inner profile, its inner diameter, and the tilting angle of the cutting edge. In addition, possible undercuts are taken into account. The method was validated using two relevant case studies. Despite profiled cutting tools having a certain drawback, which is emphasized in the article, this is balanced by the advantages that their use offers manufacturing.
Funder
Ministry of Research, Innovation, and Digitalization through the Operational Program Competitivity, Romania
Transilvania University of Brasov
Subject
Physics and Astronomy (miscellaneous),General Mathematics,Chemistry (miscellaneous),Computer Science (miscellaneous)
Reference28 articles.
1. Profile irregularities of turned surfaces as a result of machine tool interactions;Boryczko;Metrol. Meas. Syst.,2011
2. Pre-evaluation on surface profile in turning process based on cutting parameters;Lu;Int. J. Adv. Manuf. Technol.,2010
3. Liu, X.D., Lee, L.C., Ding, X., and Fang, F.Z. (2002, January 11–14). Ultraprecision turning of aspherical profiles with deep sag. Proceedings of the IEEE International Conference on Industrial Technology, Bangkok, Thailand.
4. Moroni, G., Pacella, M., and Elia, A. (2006, January 5–7). On the simulation of roundness profiles obtained by turning. Proceedings of the 4th International Industrial Simulation Conference, Palermo, Italy.
5. Sung, A.N., Ratnam, M.M., and Loh, W.P. (2012, January 28–30). Effect of tool nose profile tolerance on surface roughness in precision turning. Proceedings of the International Conference on Intelligent Robotics, Automation and manufacturing, Kuala Lumpur, Malaysia.