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J-GLOBAL ID:201901004369868935   Update date: Nov. 20, 2024

Kubota Hiroaki

クボタ ヒロアキ | Kubota Hiroaki
Affiliation and department:
Tokai University School of Engineering Department of Mechanical Engineering

About Tokai University School of Engineering Department of Mechanical Engineering


Homepage URL  (1): https://kubotaken.amebaownd.com/
Research field  (2): Manufacturing and production engineering ,  Design engineering
Research theme for competitive and other funds  (1):
  • 2021 - 2023 Flexible Thickness Control of Hydroforming by Forced Lubrication Method in Arbitrary Region and Time
Papers (32):
  • Effect of Tensile Direction on HAZ Softening Fracture of Laser Welded Martensite Steel Sheet. 2024. 55. 2. 393-398
  • T.Takahashi, K.Yoshida, H.Kubota. Production of Thin-Walled and Ultrafine Medical Tube by Drawing Using Water-Soluble Fibers as Mandrels. International Conference on Materials Processing Technology 2023. 2023
  • Y. Amano, K. Yoshida, H. Kubota. Effect of Tensile Direction on HAZ Softening Fracture of Laser Welded Martensite Steel Sheet. International Conference on Materials Processing Technology 2023. 2023
  • Yuki Amano, Hiroaki Kubota, Kazunari Yoshida, Takahiro Ohta. Effect of Different Processing Methods on Stress-induced Martensite Transformation in 304 Austenite Stainless Steel. International Conference on Materials Processing Technology 2023. 2023
  • Takanori Murakami, Hiroaki Kubota, Takahiro Ohta. Numerical analysis of peen forming using inherent strain. International Conference on Materials Processing Technology 2023. 2023
more...
MISC (10):
  • Hiroaki Kubota. 特集5 強制潤滑ハイドロフォーミング技術の開発. Materials and Processing Division Newslette. 2024. 68. 11-12
  • Nitchamon Lookkum, Varunee Premanond, Hiroaki Kubota, Ninshu Ma. Effect of Shot Size and Shot Pressure on Residual Stress Distribution of High-Speed Tool Steel SKH51. 大阪大学 接合科学共同利用・共同研究拠点 共同研究報告書 2023年度. 2024. 1. 1. 162-163
  • Hiroaki Kubota. Flexible thickness control of hydroforming by forced lubrication method in arbitrary region and time. Impact. 2024. 2024. 1. 22-24
  • Hiroaki Kubota. Residual Stress Control Technology Using Temperature Gradient During Forming. 2023
  • 窪田 紘明. 精密工学科・特任講師 窪田紘明. 東海大学紀要. 工学部. 2019. 59. 1. 49-50
more...
Patents (74):
more...
Lectures and oral presentations  (63):
  • 高効率EV用モーターに向けた断面形状急変銅線材の検討
    (日本銅学会第64回講演大会 2024)
  • FCCおよびBCC構造の鉄系合金の変形挙動に及ぼす水素導入処理の影響
    (第43回水素エネルギー協会大会 2023)
  • Production of Thin-Walled and Ultrafine Medical Tube by Drawing Using Water-Soluble Fibers as Mandrels
    (International Conference on Materials Processing Technology 2023 2023)
  • Effect of Tensile Direction on HAZ Softening Fracture of Laser Welded Martensite Steel Sheet
    (International Conference on Materials Processing Technology 2023 2023)
  • Effect of Different Processing Methods on Stress-induced Martensite Transformation in 304 Austenite Stainless Steel
    (International Conference on Materials Processing Technology 2023 2023)
more...
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