Study of the Uncut Chip in 5 Axes Ball Nose End Milling for the Third Quadrant of the Tool Inclination-Reference-Cited by-同舟云学术

Study of the Uncut Chip in 5 Axes Ball Nose End Milling for the Third Quadrant of the Tool Inclination

Published:2013-08 Issue: Volume:371 Page:37-41
ISSN:1662-7482
Container-title:Applied Mechanics and Materials
language:
Short-container-title:AMM

Author:

Cosma Marius¹

Affiliation:

1. Technical University of Cluj-Napoca

Abstract

The cross section variation of the uncut chip produced by a ball nose cutter is very complicated. In this sense, the current paper looks into and assesses some aspects regarding the geometric simulation of the chip generating mechanism in 5 axes ball nose end milling. The influence of tool inclination, however, was not considered in the machining strategy, starting with the tool path program in CAM software which allows the management of various ways of tool path generation, but cannot decide which one is the best. The present study advances, with minimal approximation, a geometrical method to establish the volume of the uncut chip and area variation of the cross section, obtained in 3D-CAD by four surfaces intersection. Both rotations in 5 axes are considered for the tool, in negative sense (A- & B-) for 0 to 30 degree range (third geometrical quadrant).

Publisher

Trans Tech Publications, Ltd.

Link

https://www.scientific.net/AMM.371.37.pdf

Reference5 articles.

1. M. Cosma, Considerations Concerning the Milling of Complex Curved Surfaces Using Ball Nose End Mills. Inter-ING 2005, Petru Maior University of Tg. Mureş, 2005, pp.91-96.

2. A. Oprean, I. Gh. Sandu, C. Minciu, L. Deacu, H. Giurgiuman, N. Oancea, Fundamentals of cutting and surfaces generation (in Romanian), Academic and Pedagogic Publishing House, Bucharest, (1981).

3. M. Cosma, Geometric Method of Undeformed Chip Study in Ball Nose End Milling, Scientific Buletin. Serie C, Vol. XX, North University of Baia Mare (2006) 49-54.

4. H. Iwabe, S. Natori, M. Masuda, T. Miyaguchi, Analysis of Surface Generating Mechanism of Ball End Mill Based on Deflection by FEM, JSME International Journal. Series C, Vol. 47, No. 1, (2004) 8-13.

5. H. Teray, M. Hao, K. Kikkawa, Y. Mizugaki, Geometric Analysis of Undeformed Chip Thickness in Ball-Nosed End Milling, JSME International Journal. Series C, Vol. 47, No. 1, (2004) 2-7.

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