Paper Info
Title
Mitigation of chatter instability in milling processes by active fourier series compensation
Abstract
The traditional methods for mitigating chatter instability are called passive control which focuses on optimizing working spindle speeds and depths of cut. But they have inherent disadvantages in gaining highly efficient machining in milling processes. By contrast, the research in this paper is along the line of active control. Specifically, an adaptive algorithm is developed based on Fourier series analysis to deal with the so-called cutting force variation matrix which causes chatter instability. As a result, the chatter instability is remarkably mitigated. The performance improvement is illustrated by numerical simulation.
Year
DOI
Venue
2012
10.1109/CoASE.2012.6386355
CASE
Keywords
Field
DocType
chatter stability,cutting force variation matrix,optimisation,chatter instability mitigation,working spindle speeds,milling process,cutting,fourier series,adaptive control,milling processes,matrix algebra,adaptive algorithm,nonlinear systems,passive control,active control,machining,machining chatter,numerical simulation,milling,machine tool spindles,stability,active fourier series compensation,stability analysis,numerical stability,vectors,damping,process control,force
Computer simulation,Control theory,Instability,Mechanical engineering,Machining,Fourier series,Process control,Engineering,Adaptive control,Adaptive algorithm,Numerical stability
Conference
Volume
Issue
ISSN
null
null
2161-8070
ISBN
Citations 
PageRank 
978-1-4673-0429-0
0
0.34
References 
Authors
1
3
Name
Order
Citations
PageRank
Zhiyong Chen116419.68
Hai-Tao Zhang240137.71
Han Ding349978.16