Personnel Information

写真a

Tateyama Kohei


Date of Birth

1986.11

The master's program in charge

Division of Production Systems Engineering

The department in charge

Department of Engineering

Job title

Associate Professor

E-mail Address

E-mail address

Research field 【 display / non-display

  • Manufacturing Technology (Mechanical Engineering, Electrical and Electronic Engineering, Chemical Engineering) / Mechanics of materials and materials

Keywords for Research Field 【 display / non-display

  • impact

  • 高速変形

  • cell structure

Research themes 【 display / non-display

  • セル構造体の衝撃吸収機構の解明

    セル構造体,衝撃吸収,2015 ~ 2022

Graduate school・Graduate course, etc. 【 display / non-display

  • National Defense Academy

    2018.03,Doctor's Course,Graduate School, Division of Science and Engineering,Completed,Japan

  • National Defense Academy

    2015.03,Master's Course,Graduate School, Division of Science and Engineering,Completed,Japan

Graduate school・major, etc. 【 display / non-display

  • Yamagata University

    2009.03,Faculty of Engineering,Graduate,Japan

Degree 【 display / non-display

  • 修士(工学)

  • 博士(工学)

Career 【 display / non-display

  • 防衛省陸上自衛隊 第8後方支援連隊第1整備大隊 3~1等陸尉

    2009.04 ~ 2018.03

  • 防衛省陸上自衛隊 開発実験団評価科 1等陸尉

    2018.04 ~ 2018.09.18

  • 立命館大学 理工学部 機械工学科 助教

    2018.09.26 ~ 2022.03.31

  • 室蘭工業大学 大学院工学研究科 もの創造系領域 准教授

    2022.04.01

Academic Society 【 display / non-display

  • 日本材料学会

  • 日本火山学会

  • 日本建築学会

  • 日本地球惑星科学連合

  • 建築研究開発コンソーシアム

display all >>

Academic prize 【 display / non-display

  • 部門一般表彰奨励講演論文部門

    2014.09.08,日本機械学会

  • 三浦賞

    2015.02.26,日本機械学会

  • 山崎学生奨励賞

    2015.03.21,防衛大学校学術・教育振興会

  • 第64期学術講演会優秀講演発表賞

    2015.06.03,日本材料学会

  • 衝撃部門賞(奨励賞)

    2022.03.30,日本材料学会 衝撃部門委員会

 

セル構造体の衝撃吸収機構の解明

Purpose of Research

軽量でありながら優れた衝撃吸収特性を有するセル構造体について,その衝撃吸収機構を明らかにする.

Summary of Research

Research Content

Features / Benefits of Research

1.Point of research 2.Research of novelty
3.Primacy of Technology 4.Situation of patent-related
 

Papers 【 display / non-display

  • Development of Empirical Formula of Ballistic Limit Velocity of SUS304 Stainless Steel Plates

    鈴木一真,熊谷知久,徳永隼人,三浦直樹, 立山耕平,山田浩之,辻裕一, 川畑友弥,酒井信介,Transactions of JSCES,Article Number:20250008,2025.07

  • Tensile Properties Under a Wide Range of Strain Rates and Penetration Stength of Abrasion-Resistant Steel

    Tomohisa KUMAGAI, Hayato TOKUNAGA, Kazuma SUZUKI, Kohei TATEAYAMA, and Hiroyuki YAMADA,Journal of Pressure Vessel Technology,2025.06

  • Compressive Deformation Behavior of Artificial Pumice for Reinforcement of Existing Shelter Against Ballistic Ejecta of Volcanic Eruption

    Kohei TATEYAMA, Kazuma ABE, Hiroyuki FUJIKI, Hisashi SASAKI, hiroyuki YAMADA,Applied Mechanics,vol.6,(2),2025.06

  • Effects of Strain Rate and Temperature on Plastic Deformation Behavior of Molybdenum-Based High-Speed Tool Steel HS-6-5-2

    Tateyama Kohei, Yamada Hiroyuki, Kobayashi Hidetoshi,Journal of Dynamic Behavior of Materials,vol.11,(p.230 ~ 242),2025.05

  • Experimental study on Reinforcement method of Impact-Resistant Shelters Against Ballistic Ejecta Using Artificial Pumice

    久保智弘,吉本充宏,本多亮,西澤達治,立山耕平,山田浩之,BULLETIN OF THE VOLCANOLOGICAL SOCIETY OF JAPAN,vol.70,(1),(p.3 ~ 12),2025.03

display all >>

International conference proceedings 【 display / non-display

  • Strain rate effects on the compressive properties of polymer lattice structures with typical unit cell topologies

    Tomohisa KOJIMA, Takahiro KAWANO, Hidaka ISHII, Kohei TATEYAMA, Hiroyuki YAMADA and Tomoaki TSUJI,Proceedings of 2nd JSME International Conference on Materials & Processing,2025.11

  • Effect of Strain Rate and Temperature Dependence on Compressive Properties of High-Strength Materials

    Ryosuke KIYA, Kohei TATEYAMA and Hiroyuki FUJIKI,Proceedings of 2nd JSME International Conference on Materials & Processing,2025.11

  • Effect of Internal Fluid Outflow on Impact Compressive Properties of Artificial Interconnected Closed Cell Structures

    Hiroto MATSUDA, Kohei TATEYAMA and Hiroyuki FUJIKI,Proceedings of 2nd JSME International Conference on Materials & Processing,2025.11

  • Impact Deformation Behavior of SLS-Printed Specimens Produced from Powders with Different Particle Size Distributions

    Ryuya OGAWA, Kohei TATEYAMA and Hiroyuki FUJIKI,Proceedings of 2nd JSME International Conference on Materials & Processing,2025.11

  • Improvement of Prediction Formula for Impact Absorption Energy of Artificial Pumice Considering Strain Rate Dependence

    Kazuma ABE, Kohei TATEYAMA, Hiroyuki FUJIKI, Hisashi SASAKI and Hiroyuki YAMADA,Proceedings of 2nd JSME International Conference on Materials & Processing,2025.11

display all >>

Editorial and Commentary 【 display / non-display

  • 突発的水蒸気噴火の危険とその防護対策例 (特集 大規模災害時における災害レジリエンス評価研究)

    山田 浩之, 立山 耕平,オペレーションズ・リサーチ = Communications of the Operations Research Society of Japan : 経営の科学,vol.66,(8),(p.492 ~ 498),2021.08

  • Challenge to Integrate Different Fields

    TATEYAMA Kohei,Journal of the Society of Materials Science, Japan,vol.70,(7),(p.587 ~ ),2021.07

  • 衝撃工学のモバイル機器への展開 (特集 衝撃工学を活かした強度設計方法と応用事例)

    奥井 亮, 立山 耕平, 山田 浩之,機械設計 = Machine design,vol.64,(12),(p.32 ~ 35),2020.11

  • Evaluation of Compressive Properties of Thin and Low-stiffness Materials

    立山 耕平,非破壊検査 : 検査と材料評価 : journal of the Japanese Society for Non-destructive Inspection,vol.69,(4),(p.186 ~ 191),2020.04

Presentaion at conference, meeting, etc. 【 display / non-display

  • 多孔質材料衝突による衝撃緩和効果の数値解析的検証

    大谷清伸,立山耕平,日本機械学会M&M2025材料力学カンファレンス,日本機械学会M&M2025材料力学カンファレンス,2025.11

  • 粒径が異なる軽石を充填した軽石集合体のエネルギー吸収特性

    阿部一真,立山耕平,藤木裕行,日本機械学会M&M2025材料力学カンファレンス,日本機械学会M&M2025材料力学カンファレンス,2025.11

  • 人工欠陥を付与したランダムセル構造体の変形挙動

    小川瑠也,立山耕平,藤木裕行,日本機械学会M&M2025材料力学カンファレンス,日本機械学会M&M2025材料力学カンファレンス,2025.11

  • 内部流体を有するセル構造体の衝撃圧縮特性に及ぼすセル数の影響

    松田拓人,立山耕平,藤木裕行,日本機械学会M&M2025材料力学カンファレンス,日本機械学会M&M2025材料力学カンファレンス,2025.11

  • EPU製衝撃吸収材料の動的圧縮特性評価

    酒井 亮明,立山耕平,長坂圭,鈴木丈太,藤木裕行,日本機械学会M&M2025材料力学カンファレンス,日本機械学会M&M2025材料力学カンファレンス,2025.11

display all >>

 

Class subject in charge 【 display / non-display

  • 材料の力学A(前半8週)

    2025,Department

  • 環境科学(A~Gクラス)

    2025,Department

  • 機械ロボット工学各論

    2025,Master's program

  • 環境科学(Gクラス)

    2024,Department

  • 環境科学(Fクラス)

    2024,Department

display all >>