研究者
J-GLOBAL ID:200901016811105092   更新日: 2022年09月04日

社本 英二

シヤモト エイジ | Shamoto Eiji
所属機関・部署:
職名: 教授
ホームページURL (1件): http://www.upr.mech.nagoya-u.ac.jp/index.html
研究分野 (1件): 加工学、生産工学
論文 (25件):
  • Wataru Takahashi, Norikazu Suzuki, Eiji Shamoto. Development of a novel boring tool with anisotropic dynamic stiffness to avoid chatter vibration in cutting Part2:Analytical and experimental verification of the proposed method. PRECISION ENGINEERING-JOURNAL OF THE INTERNATIONAL SOCIETIES FOR PRECISION ENGINEERING AND NANOTECHNOLOGY. 2021. 68. 20-34
  • Wataru Takahashi, Norikazu Suzuki, Eiji Shamoto. Development of a novel boring tool with anisotropic dynamic stiffness to avoid chatter vibration in cutting Part1:Design of anisotropic structure to attain infinite dynamic stiffness. PRECISION ENGINEERING-JOURNAL OF THE INTERNATIONAL SOCIETIES FOR PRECISION ENGINEERING AND NANOTECHNOLOGY. 2021. 68. 57-71
  • Nam Soohyun, Hayasaka Takehiro, Jung Hongjin, Shamoto Eiji. Proposal of novel spindle speed variation profile with constant acceleration rate for improvement of chatter stability. PRECISION ENGINEERING-JOURNAL OF THE INTERNATIONAL SOCIETIES FOR PRECISION ENGINEERING AND NANOTECHNOLOGY. 2021. 68. 218-234
  • Takahashi Wataru, Nakanomiya Tomoki, Suzuki Norikazu, Shamoto Eiji. Influence of flank texture patterns on the suppression of chatter vibration and flank adhesion in turning operations. PRECISION ENGINEERING-JOURNAL OF THE INTERNATIONAL SOCIETIES FOR PRECISION ENGINEERING AND NANOTECHNOLOGY. 2021. 68. 262-272
  • Takahashi Wataru, Suzuki Norikazu, Shamoto Eiji. Development of a novel boring tool with anisotropic dynamic stiffness to avoid chatter vibration in cutting Part 2: Analytical and experimental verification of the proposed method. PRECISION ENGINEERING-JOURNAL OF THE INTERNATIONAL SOCIETIES FOR PRECISION ENGINEERING AND NANOTECHNOLOGY. 2021. 68. 20-34
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MISC (84件):
講演・口頭発表等 (2件):
  • 新積層造形技術の開発と短時間試作/超ハイサイクル成形への応用
    (革新的モノづくり技術開発プロジェクト 技術セミナー)
  • Chatter Stability Prediction of Cutting Process With Process Damping Utilizing Finite Element Analysis
    (Proceedings of the international Conference on Leading Edge Manufacturing/Materials & Processing (LEM&P 2020) 2020)
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