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Analysis of Cutter Orientation when Ball Nose End Milling Nickel Based Superalloys
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 Title & Authors
Analysis of Cutter Orientation when Ball Nose End Milling Nickel Based Superalloys
Lee, Deuk-U;
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High speed ball end milling is attracting interest in the aerospace industry for the machining of complex 31) airfoil surfaces in nickel based superalloys, Experimental work is detailed on the effect of cutter orientation on tool life, cutting forces, chip formation, specific force and workpiece surface roughness, when high speed ball end milling nickel based supperalloy(lnconel 718). Dry cutting was performed using 8min diameter solid carbide cutters coated with either TiA1N or CrN for the workpiece mounted at an angle of 45˚ from the cutter axis. A horizontal downwards cutting orientation provided the best tool life with cut lengths~50% longer than for all other directions. Evaluation of cutting forces and associated spectrum analysis of results indicated that cutters employed in a horizontal downwards direction produced the least vibration.
Ball End Milling;Nickel Based Superalloys;Horizontal Downwards Cutter Orientation;Horizontal Upwards Cutter Orientation;Vertical Downwards Cutter Orientation;Vertical Upwards Cutter Orientation;Carbide Cutter Coated with TiAIN, CrN;Tool Wear;
 Cited by
Eckstein, M., Lebkuchner, G. and Blum, D., 1991, 'End Milling of Titanium Alloys Using High Cutting Speeds - Part I Roughing Machining,' VDI-Z, pp. 133(12)

Maekawa, K., Ohshima, I. and Nakano,Y., 1994, 'High Speed End Milling of Ti-6Al-6V-25n Titanium Alloy,' Advancement of Intelligent Production, Elsevier Science B.V., pp. 431-436

schulz, H., 1996, 'Hochgeschwindigkeits - bearbeitung (High Speed Machining),' Carl Hanser Verlag, ISBN 34461787960

Derrien, S. and Vigneau, J., 1997, 'High Speed Milling of Difficult to Machine Alloys,' Proceedings of the 1st French and German Conference on High Speed Machining, Metz, France, pp. 284-289

Kato, H., Shintani, K., Ohshima ,A. and Kohno, Y., 1996, 'Cutting Performance of PCBN on Machining of Nickel Based Superalloys- Effect Of High Pressure Coolant Supply On Tool Wear,' Proceedings of the 3rd international Conference On Progress of Cutting and Grinding, Osaka, Japan, Vol. 3, pp. 142-147

Schulz, H. and Hock, S., 1995, 'High Speed Milling of Dies and Moulds- Cutting Conditions and Technology,' Annals Of The CIRP, Vol. 44, pp. 35-338 crossref(new window)

Hock, S., 1998, 'High Speed Cutting in Die and Mold Manufacture,' Proceedings of the Machine Tool Technologies Association Conference, Warwick/Loughborough/Manchester, UK, ISBN-0-907348-04-1

Gatto, A. and Iuliano, L., 1997, 'Advanced Coated Ceramic Tools For Machining Superalloys,' International Journal of Machine Tools and Manufacture, Vol. 37, pp. 591-605 crossref(new window)

Sharman, A., Dewes, R.C. and Aspinwall, D.K., 1999, 'Tool Life When High Speed Ball Nose End Milling Inconel 718,' Proceedings of the AMPT99/IMC16, Dublin Ireland, pp. 437-446 crossref(new window)

Tonshoff, H.K. and Hernandez-Camacho, J., 1989, 'Die Manufacturing By 5-and 3-Axes Milling,' Journal of Mechanical working Technology, Vol. 20, pp. 105-119 crossref(new window)