Programmable optimal design of sinusoidal spindle speed variation for regenerative chatter suppression

Shuntaro Yamato, Takamichi Ito, Hirohiko Matsuzaki, Yasuhiro Kakinuma

研究成果: Conference article査読

8 被引用数 (Scopus)


Continuous spindle speed variation, especially under sinusoidal speed law, is a well-known effective and flexible technique to suppress chatter vibration by disrupting regenerative effect in high-lobe-number zone. In most researches, its optimal design parameters (i.e. amplitude and frequency of spindle speed variation) are selected to maximize cutting depth by using complex stability simulations, which take much time and require machine tool dynamics. In this paper, novel simple criteria, only according to chatter frequency and nominal spindle speed, is proposed to select optimal amplitude and frequency of sinusoidal spindle speed variation (S3V). Under assumption that the variation amplitude and frequency is low in practice, modulation index for S3V can be introduced by analogy between S3V and frequency modulation technique in radio engineering. Then, the proposed formula to select optimal parameters is introduced based on kinematic process energy analysis with modulation index as an argument of Bessel function. Although the proposed method does not give information about stability limit, it has potential to contribute to intelligent active chatter suppression by automatic selection of S3V parameters combined with chatter monitoring system. Some boring tests were conducted to verify the proposed formula.

ジャーナルProcedia Manufacturing
出版ステータスPublished - 2018
イベント18th Machining Innovations Conference for Aerospace Industry, MIC 2018 - Garbsen, Germany
継続期間: 2018 12月 282018 12月 29

ASJC Scopus subject areas

  • 産業および生産工学
  • 人工知能


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