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Advances in Manufacturing

Erschienen in:

18.05.2018

Integrated in-process chatter monitoring and automatic suppression with adaptive pitch control in parallel turning

verfasst von: Shuntaro Yamato, Yuki Yamada, Kenichi Nakanishi, Norikazu Suzuki, Hayato Yoshioka, Yasuhiro Kakinuma

Erschienen in: Advances in Manufacturing | Ausgabe 3/2018

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Abstract

Simultaneous processes such as parallel turning or milling offer great opportunities for more efficient manufacturing because of their higher material removal rates. To maximize their advantages, chatter suppression technologies for simultaneous processes must be developed. In this study, we constructed an automatic chatter suppression system with optimal pitch control for shared-surface parallel turning with rigid tools and a flexible workpiece, integrating in-process chatter monitoring based on the cutting force estimation. The pitch angle between two tools is tuned adaptively in a position control system in accordance with the chatter frequency at a certain spindle speed, in a similar manner as the design methodology for variable-pitch cutters. The cutting force is estimated without using an additional external sensor by employing a multi-encoder-based disturbance observer. In addition, the chatter frequency is measured during the process by performing a low-computational-load spectrum analysis at a certain frequency range, which makes it possible to calculate the power spectrum density in the control system of the machine tool. Thus, the constructed system for automatic chatter suppression does not require any additional equipment.

Vorheriger Artikel Optimal cutting condition determination for milling thin-walled details

Nächster Artikel Point-based tool representations for modeling complex tool shapes and runout for the simulation of process forces and chatter vibrations

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Titel: Integrated in-process chatter monitoring and automatic suppression with adaptive pitch control in parallel turning
verfasst von: Shuntaro Yamato
Yuki Yamada
Kenichi Nakanishi
Norikazu Suzuki
Hayato Yoshioka
Yasuhiro Kakinuma
Publikationsdatum: 18.05.2018
Verlag: Shanghai University
Erschienen in: Advances in Manufacturing / Ausgabe 3/2018
Print ISSN: 2095-3127
Elektronische ISSN: 2195-3597
DOI: https://doi.org/10.1007/s40436-018-0222-0

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