Researchers

SUZUKI Masanori

SUZUKI Masanori
Associate Professor
Faculty Department of Mechanical Engineering
Researchmap https://researchmap.jp/eternalblue

Education and Career

Academic & Professional Experience

  • Apr. 2026 - Today , Kindai University Faculty of Science and Engineering Associate Professor
  • Apr. 2019 - Mar. 2026 , Osaka University 工学研究科 マテリアル生産科学専攻 准教授
  • Aug. 2016 - Mar. 2019 , Osaka University, Japan Division of Materials and Manufacturing Science, Graduate School of Engineering Associate Professor
  • Apr. 2011 - Jul. 2016 , Osaka University, Japan Division of Materials and Manufacturing Science, Graduate School of Engineering Assistant Professor
  • Apr. 2010 - Mar. 2011 , University of Queensland, Australia PYROSEARCH Research Centre Postdoctral research fellow

Research Activities

Research Areas

  • Environmental science/Agricultural science, Environmental materials/recycling technology
  • Nanotechnology/Materials, Nanomaterials
  • Nanotechnology/Materials, Metals and resources production
  • Nanotechnology/Materials, Metals and resources production
  • Nanotechnology/Materials, Metals and resources production

Research Interests

Future design, 水熱反応, Machine learning, Atomic structure charaterization, Thermodynamics, Interfacial materials science, High temperature processes

Published Papers

  1. Electrical conductivity measurements of rhyolitic glass at high pressure and high temperature
    Yusuke Haraguchi; Kiyoshi Fuji-Ta; Takashi Yoshino; Masashi Nakamoto; Masanori Suzuki; Toshihiro Tanaka
    Earth, Planets and Space  78  , 57-, 16, Feb. 2026  , Refereed
  2. Characterization of surface ionic arrangements of borate melts induced by structural relaxation
    Masanori Suzuki; Itaru Hasegawa; Takeshi Watanabe
    Journal of the American Ceramic Society  108  (10)  , e70068-, 2, Jul. 2025  , Refereed
  3. Development of Evaluation Method for Distribution of Inclusions in Micro Segregation / Structure of Unidirectional Solidified Specimen
    Akira Takahashi; Anna Sciazko; Masashi Nakamoto; Masanori Suzuki; Hisao Esaka; Naoki Shikazono; Takeshi Yoshikawa
    Tetsu-To-Hagane/Journal of the Iron and Steel Institute of Japan  111  (3)  , 95-104, 15, Feb. 2025 

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Books etc

  1. Treatise on Process Metallurgy Volume 2A: Process Phenomena , Toshihiro Tanaka; Masashi Nakamoto; Masanori Suzuki; Seshadri Seetharaman , Chapter 1.4 - Surface Tension Models , Chapter 1.4 - Surface Tension Models , Elsevier , Jul. 2025
  2. Progress in Advanced Structural and Functional Materials Design , Toshihiro Tanaka; Masanori Suzuki , Chapter 10 “Eco-Friendly Materials Recycling Processing” (pp.119-126) , Chapter 10 “Eco-Friendly Materials Recycling Processing” (pp.119-126) , Springer-Japan , Jan. 2012
  3. マクロおよびナノポーラス金属の開発最前線 , 田中敏宏; 鈴木賢紀; 平井信充 , "14 低環境負荷微細孔材料作製の試み" (pp.91-98) , "14 低環境負荷微細孔材料作製の試み" (pp.91-98) , シーエムシー出版 , Aug. 2011

Conference Activities & Talks

  1. Characterization of Surface Ionic Structure Relaxation in Molten Oxide Slag with Surface-active Constituents , Masanori Suzuki , The 190th ISIJ Biannual Meeting , 18, Sep. 2025
  2. Evaluation of Activity Coefficients of Oxygen and Nitrogen in Molten Fe-based Alloy using Solvation Shell Model , Masanori Suzuki; Yusuke Omi; Masashi Nakamoto; Takeshi Yoshikawa , The 189th ISIJ Biannual Meeting , 8, Mar. 2025
  3. Solvation shellモデルに基づく溶融合金中の酸素・窒素の活量係数およびその支配因子の評価 , 鈴木賢紀; 大見祐介; 中本将嗣; 吉川健 , 製鋼科学技術コンソーシアム2025年1月期研究会 , 27, Jan. 2025

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MISC

  1. 産業・技術イノベーションのフューチャー・デザイン (持続可能な未来社会実現のためのレアメタル供給方法とは?) , 鈴木 賢紀; 原 圭史郎 , 設計工学 , 60 , 9 , 456 , 462 , Sep. 2025
  2. Preface to the Special Issue on “New Developments in High Temperature Processing of Steels and Related Materials Leading the Sustainable Society, and Key Properties of High Temperature Melts” , Masanori Suzuki , ISIJ International , 64 , 15 , 2085 , 2086 , 30, Dec. 2024
  3. Optimization of Optical Condition for Grazing-incidence X-ray Scattering Profile for Surface Structure of B2O3-based Oxide Melts , Suzuki Masanori; Hasegawa Itaru; Watanabe Takeshi , SPring-8/SACLA Research Report , 11 , 5 , 361 , 365 , 31, Oct. 2023
    Summary:溶融スラグの表面張力は、金属製造工程にて耐火材の浸食挙動を支配する融体物性であるが、表面張力を正確に予測するには融体表面で構造緩和されたイオン配位形態の解明が不可欠である。本課題では溶融酸化物の表面構造情報を捉えることを目標として、表面における構造情報を取得するための光学条件の構築を試みた。その結果、溶融状態を模した酸化物ガラス試料の表面へX線を微小角入射し、表面構造をある程度反映したX線散乱プロファイルを取得することができた。

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Awards & Honors

  1. Sep. 2024, (公財)鉄鋼環境基金, 鉄鋼技術賞
  2. May. 2018, 日本学術振興会製鋼第19委員会, 優秀研究賞
  3. Mar. 2018, ISIJ, Sawamura Paper Award

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Research Grants & Projects

  1. 日本学術振興会, 科学研究費助成事業, 溶融酸化物の電子状態と配位構造の表面緩和を包含した表面張力推算モデルの構築 , 大阪大学
  2. 公益財団法人 鉄鋼環境基金, 2024年度 一般研究助成, 水熱処理を利用した製鋼スラグからの有価資源回収ルート構築 , 大阪大学
  3. Japan Society for the Promotion of Science, Grants-in-Aid for Scientific Research, Surface Tension Modelling of Molten Oxides based on Relaxation Mechanism of Surface Ionic Structure , Osaka University

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