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TECHNICAL PAPERS

Multi Frequency Solution of Chatter Stability for Low Immersion Milling

[+] Author and Article Information
S. D. Merdol, Y. Altintas

Manufacturing Automation Laboratory, University of British Columbia, 2324 Main Mall, Vancouver, BC, Canada, V6T 1Z4 http://www.mech.ubc.ca/∼mal

J. Manuf. Sci. Eng 126(3), 459-466 (Sep 07, 2004) (8 pages) doi:10.1115/1.1765139 History: Received June 01, 2003; Revised December 01, 2003; Online September 07, 2004
Copyright © 2004 by ASME
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References

Figures

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Directional coefficient, ax, given in Eq. (11), N=3,n=10000 rpm,(ϕst=153°, ϕex=180°),Kr=0.3,ϕp=120°
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Comparison of stability lobes
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Time domain simulation of cutting force and tool vibration in X direction, point A: n=3200 rpm,a=2.5 mm, unstable, ωc=147.2 Hz,ωT=53.34 Hz.
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Time domain simulation of cutting force and tool vibration in X direction, point B: n=3540 rpm,a=2.5 mm, Stable, ωT=59 Hz.
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Time domain simulation of cutting force and tool vibration in X direction, point C: n=3600 rpm,a=2.5 mm, Unstable, ωc=150 Hz,ωc=60 Hz.
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Real part of transfer function and harmonics: hr=5, 3200 rpm, ωT=53.3 Hz.
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Real part of transfer function and its harmonics: hr=5, 3600 rpm, ωT=60 Hz

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