Rchr

J-GLOBAL ID：200901099901297546 Update date: Apr. 26, 2024

Takashima Kazuki

タカシマカズキ | Takashima Kazuki

Affiliation and department：
Homepage URL (1)： http://www.msre.kumamoto-u.ac.jp/%7Esentan/

Research field (1)： Structural and functional materials

Research keywords (3)： Fracture and Fatigue , Mechanical Properties , Materials Evaluation

Research theme for competitive and other funds (37)：

2020 - 2025 Elucidation of Fatigue Crack Propagation Mechanism and Fatigue Strengthening Design of Martensitic Steels by Micromechanical Testing
2021 - 2023 Development of Local Strengthening Method for Micro Mechanical Components Using FIB Irradiation Induced Martensitic Transformation
2019 - 2022 Multi-length scale mechanical characterisations towards comprehensive understanding of the microstructure - hydrogen embrittlement relationship
2015 - 2019 Elucidation of Strengthening Mechanism in Martensite of Steels by Micromechanical Testing and Its Application to Toughening Design
2016 - 2018 In-situ observation during fracture and fatigue testing of micro single crystal

2014 - 2016 Development of In-situ Observation Method of Fracture Process on Micro/Nano Meter Scale Using White Light Interferometry Technique

2013 - 2016 Micromechanical characterization of hydrogen embrittlement related to martensitic transformation

2014 - 2016 Fracture and Fatigue Mechanisms of LPSO Phase of Mg-Zn-Y Alloy by Micro-mechanical Testing

2012 - 2015 Analysis of Deformation and Fracture Mechanisms in Multiphase Alloys Using Microscale Mechanical Testing Technique

2012 - 2014 マイクロ材料試験によるMg-Zn-Y合金中に形成されるLPSO相の強化機構の解明

2011 - 2012 Development of Observation System for Microdeformation Behaviorin Multi-Phase Material by White Light Interferometry

2010 - 2012 Development of Friction Stir Incremental Forming Method for Forming Sheet Metals

2009 - 2011 Micromechanical Testing of Hierarchical Constituents in Microstructure and Its Application to Multiscale Material Design

2006 - 2008 Development of Mechanical Characterization Method for Micro-Structures in Materials by Micro Testing Technique

2003 - 2007 金属ガラスの極微小化における力学特性評価とその寸法効果

2004 - 2005 Development of Characterization Method of Microstructural Constituents using Micro-Sized Specimens

2002 - 2004 Formation of Self-Oriented Nanocrystals in an Amorphous Alloy under Focused-Ion-Beam Irradiation

2001 - 2002 Development of Corrosion Fatigue Testing Machine for Micro-Sized Specimens for Bio-MEMS

2001 - 2002 In-Situ Strengthening Method for Micro-Sized materials for MEMS devices by Nanocrystal Precipitation During Application of Stress

2000 - 2001 Development of Versatile Mechanical Testing Machine for Sub-Micro-Sized Specimens

1999 - 2000 Fatigue Crack Growth Mechanisms in HCP Single Crystals

1998 - 1999 サブミクロンサイズの超徴小材料における強化機構の開発

1997 - 1998 Fatigue Crack Growth Mechanisms in Titanium Single Crystals

1996 - 1997 THREE DIMENSIONAL VISUALIZATION OF ROCK FRACTURING PROCESS

1996 - 1996 繊維強化金属基複合材料の疲労損傷過程の解析

1995 - 1996 DEVELOPMENT OF HIGH PERFORMANCE TiAl ALLOYS USING RAPIDLY SOLIDIFIED POWDER WITH MARTENSITIC STRUCTURE.

1994 - 1995 Fracture, Fatigue and Damage Evolution of Coposites

1994 - 1994 衝撃圧縮による高臨界電流密度を有する酸化物超伝導体の開発

1993 - 1993 チタン結晶における活動すべり系の同定

1991 - 1992 可逆形状記憶合金を用いた岩石破砕器の開発

1991 - 1991 水中を伝播する衝撃波の挙動とセラミックス基複合粉末の衝撃固化への応用

1990 - 1990 衝撃波の伝播に伴う固体物質の微視的構造変化過程の解析

1990 - 1990 マグネシウムーリチウム合金単結晶における非底面すべり変形の合金濃度依存性

1990 - 1990 酸化物超伝導体の微視組織ならびに超伝導特性におよぼす衝撃圧力負荷効果

1988 - 1988 衝撃エネルギーを利用した酸化物超伝導体の高密度成形とその特性評価

1986 - 1987 液体貯蔵タンク金属材料の腐食劣化検出監視システムの試作

1985 - 1985 爆発成形法による希土類酸化物粒子分散強化耐熱合金の製造

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Papers (168)：

Christoph Hartmann, Kishore Venkatesan, Geoffrey de Looze, Kazuki Takashima, Shirley Shen, Robert Wilson. Additive manufacturing of WE43 and modified AZ91D magnesium alloys using the laser engineered net shaping process. Materials Today Communications. 2024. 39
Natsumi Morooka, Aya Matsushita, Masanori Sano, Takuya Yamaoka, Soichiro Yamaguchi, Kwangsik Kwak, Yoji Mine, Kazuki Takashima. Effect of Microalloying of V, Nb and Mo on Hydrogen Embrittlement Susceptibility of 2 GPa-grade Medium-carbon Si-Cr Spring Steel with Tempered Martensite Microstructure. Tetsu-to-Hagane. 2024. 110. 3. 184-196
Kwangsik Kwak, Takateru Yamamuro, Yoji Mine, Shigekazu Morito, Kazuki Takashima. Effect of Inhomogeneous Microstructure on Strength and Fracture Resistance in Sharp Edge of Japanese Swords. Tetsu-to-Hagane. 2024. 110. 3. 160-170
Shohei Ueki, Yoji Mine, Yu Lung Chiu, Paul Bowen, Kazuki Takashima. Effects of crystallographic orientation and lamellar configuration on fatigue crack propagation in single-colony structures of Ti-6Al-4V alloy: Alternating shear crack growth vs. damage accumulation crack propagation. Materials Science and Engineering: A. 2024. 890
Qianying Jia, Qinggong Jia, Shijie Zhu, Yufeng Zheng, Yoji Mine, Kazuki Takashima, Shaokang Guan. A promoting nitric oxide-releasing coating containing copper ion on ZE21B alloy for potential vascular stent application. Journal of Magnesium and Alloys. 2023. 11. 12. 4542-4561

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MISC (331)：

丹羽侑希, 植木翔平, 太田元基, 峯洋二, 高島和希. 鉄基アモルファスおよび超微細粒合金のせん断破壊挙動のマイクロ力学試験その場観察. 日本金属学会講演大会(Web). 2022. 171st
郭光植, 岡村祐希, 岡村祐希, 峯洋二, 高島和希, 安藤慎輔, 桑原孝介. 選択的レーザ溶融法により作製したCoCrFeNiTiMo合金のマイクロ引張試験. 日本金属学会講演大会(Web). 2022. 171st
KWAK Kwangsik, 峯洋二, 森戸茂一, 大村孝仁, 高島和希. Relationship between strength and hardness in single packet and single block structures of lath martensite. 日本機械学会M&M材料力学カンファレンス(CD-ROM). 2022. 2022
秋本悟志, 植木翔平, KWAK Kwangsik, 峯洋二, 高島和希. Effect of β lath arrangement on activation of <a> slips in single-colony lamellar structures of Ti-6Al-4V alloy. 日本機械学会M&M材料力学カンファレンス(CD-ROM). 2022. 2022
植木翔平, 峯洋二, 高島和希. Microstructural and mechanical characterisation of fatigue crack propagation in lath martensite carbon steel using miniature specimen. 材料とプロセス(CD-ROM). 2022. 35. 1

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Patents (37)：

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Books (2)：

微小材料試験によるミクロ変形挙動の計測 (降伏強度と組織研究会報告書II 100-105頁)
社団法人日本鉄鋼協会 2007
Thin Films - Stresses & Mechanical Properties XI ( Vol. 875)
2005

Lectures and oral presentations (149)：

Micromechanical Characterization of Single-crystalline Silicon at Elevated Temperature
(TMS 2020 149th Annual Meeting & Exhibition 2020)
Microstructural Fatigue Crack Growth in Martensitic Steel and Titanium Alloy with Hierarchical Structure
(The 26th International Conference on Plasticity, Damage and Fracture 2020)
マイクロ引張試験による中炭素鋼ラスマルテンサイトの力学特性評価
(日本金属学会2019年秋期(第165回)講演大会 2019)
マイクロ材料試験による材料構成組織の局所的な力学特性評価
(日本金属学会2019年秋期(第165回)講演大会 2019)
Micro-tensile testing of single colonies of Ti-6Al-4V with different lamellar orientations
(EUROMAT 2019 2019)

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Works (27)：

微細金構造の材料強度-試験片の低アスペクト比化の検討-
2007 - 2008
微細金構造の材料強度-低アスペクト比試験片を用いた疲労試験の実施-
2007 - 2008
微細金属構造の材料強度-低アスペクト比試験片を用いた疲労試験の実施-
2007 - 2008
強化メカニズム解明-破壊メカニクス解明-(熊本県地域結集型研究開発プログラム次世代耐熱マグネシウム合金の基盤技術開発)
2007 - 2008
「超高強度軽量移動体を可能にする複層鋼板とTiシートの複合構造」(複層材料の界面強度に関する研究)
2007 - 2008

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Education (3)：

1980 - 1984 Tokyo Institute of Technology Graduate School of Science and Engineering
1978 - 1980 Tokyo Institute of Technology
1974 - 1978 Kumamoto University Faculty of Engineering

Professional career (2)：

Doctor of Engineering (Tokyo Institute of Technology)
Master of Engineering (Tokyo Institute of Technology)

Work history (8)：

2021/04 - 現在 Kumamoto University International Research Organization for Advanced Science and Technology Director / Distinguished Professor
2015/04 - 2021/03 Kumamoto University Faculty of Advanced Science and Technology Professor
2006/04 - 2015/03 Kumamoto University
2005/03 - 2006/03 Kumamoto University Faculty of Engineering
1997/09 - 2005/02 Tokyo Institute of Technology

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Committee career (4)：

2005 - 2006 マイクロマシンセンター MEMSにおける規格化戦略に関する調査研究委員会委員(2005-2006)
2005 - 2006 マイクロマシンセンターマイクロ・ナノ材料の疲労試験に関する標準化調査研究「調査研究委員会」委員(2005-2006)
2005 - 2006 マイクロマシンセンターマイクロ・ナノ材料の疲労試験に関する標準化調査研究「標準化推進委員会」委員(2005-2006)
2004 - 2005 ASME ?

Awards (7)：

2021/03 - 日本鉄鋼協会澤村論文賞
2019/09 - 日本金属学会学術貢献賞
2017/03 - Japan Institute of Metals Tanigawa Harris Award
2013/06 - 日本塑性加工学会論文賞摩擦撹拌インクリメンタルフォーミング法の開発
2010/10 - International Electrotechnical Commission IEC1906 Award

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Association Membership(s) (3)：

MATERIALS RESEARCH SOCIETY , THE IRON AND STEEL INSTITUTE OF JAPAN , THE JAPAN INSTITUTE OF METALS AND MATERIALS

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