Resonant load control methods application to high-speed machine tool with linear motor

The use of machine tools within the framework of high speed machining puts heavy demands on the material structure, thus generating damaging vibrations during machining phases. Two complementary methods can be planned to improve the dynamic behaviour: a mechanical solution (to rigidify, etc.), and a...

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Bibliographic Details
Published inIEEE International Conference on Emerging Technologies and Factory Automation 2001 Vol. 2; pp. 23 - 31 vol.2
Main Authors Dumetz, E., Vanden Hende, F., Barre, P.J.
Format Conference Proceeding
LanguageEnglish
Published IEEE 2001
Subjects
Acceleration
Design methodology
Filtering
Industrial control
Load flow control
Machine tools
Machining
Process control
Resonance
Vibrations
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ISBN0780372417
9780780372412
DOI10.1109/ETFA.2001.997666

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Summary:The use of machine tools within the framework of high speed machining puts heavy demands on the material structure, thus generating damaging vibrations during machining phases. Two complementary methods can be planned to improve the dynamic behaviour: a mechanical solution (to rigidify, etc.), and a solution that involves taking the dynamic behaviour into account by a judicious control law. It is this second method that we explore. In this paper, we propose: - Firstly, to explore the classic industrial control methods based on a PI controller and filtering methods applied to translation resonant load. - Secondly to explain how, starting from a strategy of behaviour model control, we can make the whole chain rigid, thus making it possible to obtain significant dynamic performances and a higher degree of accuracy. This behaviour model control, based on the techniques of pole assignment, constrains the flexible process to behave like the model.
ISBN:0780372417
9780780372412
DOI:10.1109/ETFA.2001.997666