An improved process simulation system for ball-end milling of sculptured surfaces
Author:
Publisher
Elsevier BV
Subject
Industrial and Manufacturing Engineering,Mechanical Engineering
Reference21 articles.
1. Closed form formulation of cutting forces for ball and flat end mills;Abrari;Int. J. of Machine Tools and Manufacture,1996
2. Computer based modeling of popular machining operations for force and power predictions;Armarego;CIRP Annals,1985
3. Four plane facet point drills—Basic design and cutting model predictions;Armarego;CIRP Annals,1990
4. E.J.A. Armarego, N.P. Deshpande, Force prediction models and CAD/CAM software for helical tooth milling processes, Part I, Basic approach and cutting analyses, International Journal of Production Research 31 (8) (1993) 1991–2009; Part II, Peripheral milling operations, International Journal of Production Research 31( 10) (1993) 2319–2336; Part III, End-milling and slotting operations, International Journal of Production Research (1993).
5. A system for monitoring the machining operation by referring to a predicted torque pattern;Bertok;CIRP Annals,1983
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