Schmitz, T.
, Davies, M.
and Medicus, K.
(2001),
Improving High-Speed Machining Material Removal Rates by Rapid Dynamic Analysis, Annals of the CIRP
(Accessed July 18, 2025)
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Improving High-Speed Machining Material Removal Rates by Rapid Dynamic Analysis
Published
Author(s)
, ,
Abstract
Stability prediction and chatter avoidance in high-speed machining requires knowledge of the tool point dynamics. In this paper, three advances toward the rapid identification of the tool point frequency response and corresponding stable cutting parameters are described: 1) stable speeds determination using non-contact periodic impulsive excitation of the tool point (produced by spindle rotation and a stationary magnet) in conjunction with once-per-revolution sampling, 2) Receptance Coupling Substructure Analysis for the analytic prediction of the tool point response, and 3) once-per-revolution sampling of the audio signal during cutting to determine stability behavior.Citation
Annals of the CIRP
Volume
50(1)
Pub Type
Journals
Keywords
high speed machining, material removal rate, substructure analysis
Citation
Issues
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Created January 1, 2001, Updated February 19, 2017