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J-GLOBAL ID：200901041803252749 Update date: Jul. 15, 2024

Yasumaru Naoki

ヤスマルナオキ | Yasumaru Naoki

Affiliation and department：
Job title： Professor
Homepage URL (1)： http://mech.me.fukui-nct.ac.jp/materi/

Research field (1)： Material fabrication and microstructure control

Research keywords (5)： LIPSS , Surface Modification , Femtosecond laser ablation , Nanostructure , Surface Engineering

Research theme for competitive and other funds (33)：

2020 - 2023 フェムト秒レーザ誘起ナノ構造を有する新抗菌素材の開発
2020 - 2023 レーザ誘起ナノ構造付与抗菌素材の開発
2019 - 2021 切削性・耐久性に優れたレーザー誘起ナノ構造付与工具・機械部品の開発研究
2018 - 2021 フェムト秒レーザーによるナノ構造付与高機能DLC表面の創製
2015 - 2018 Development of the high performance alloys surface-treated at relatively low temperature due to femtosecond-laser-induced nanostructuring

2013 - 2016 Wear behavior of sub-microcrystalline metals produced by severe plastic deformation

2012 - 2015 Development of surface nanoprocessing techniques with femtosecond laser pulses

2012 - 2015 Development of the high performance metal surfaces due to femtosecond-laser-induced nanostructure formed on surface modification layer

2011 - 2013 フェムト秒レーザーによる鉄合金窒化層表面のナノ構造形成と高耐久性表面の創製

2011 - 2012 フェムト秒レーザーによる環境調和型低エネルギー損失ナノ構造炭素表面の創製

2010 - 2012 Tribo-metallurgical properties and application of friction-induced surface layer

2011 - 窒化された鉄合金表面のフェムト秒レーザー援用ナノテクスチャ加工とDLC被覆による高耐久性複合表面改質

2008 - 2010 Next-generation surface design technology due to femtosecond-laser-induced nanostructure formed on hard thin films

2007 - 2009 Production and tribological properties of friction-induced ultra-fine and nanocrystalline structures on metal surfaces

2005 - 2009 パルスレーザー照射表面ナノ加工による低フリクション自動車摺動部品の製造技術の開発

2006 - 2008 Development of technology for formation and its control of nanostructures on solid surfaces with ultrashort pulse lasers

2005 - 2007 Development of the carbon thin films nanostructured by femtosecond laser pulse with a super low friction coefficient and local conductivity

2005 - 2007 フェムト秒レーザーによるダイヤモンド状炭素薄膜のナノ構造制御とゼロ摩耗面の実現

2004 - 2006 Tribofilm Formation by Tribo-Sintering of Nanometer-Sized Particles

2004 - 2006 Development of atmosphere controlled Tribotester and evaluation of tribological properties of hard thin films nanostructured with femtosecond laser

2003 - 2005 Study of nanostructure formation processes on thin film surfaces irradiated with femtosecond laser pulses and development of its physical model

2003 - 2005 フェムト秒レーザーによるダイヤモンド状炭素膜のナノ構造制御表面の創成

2000 - 2005 高機能硬質膜のレーザー表面加工・改質技術の開発

2003 - 2004 Minimization of nano-scale friction force of DLC films with the periodic structiues processed by a femto-seoond laser

2002 - 2004 Development of super-tribological duplex coatings due to 3-dimensional femtosecond-laser processing

1998 - 2000 Development of Supertough Ceramic or Cermet Thick Coatings Available in Various Surroundings

2000 - ドライ環境対応超強靱複合膜の開発

1997 - 1999 The Research of Improvement and Evaluation of Processing Technique of Hard Processing Materials

1996 - 1997 Duplex Surface Treatment due to Combined Plasma Nitriding and Ceramic or Cermet Thick Coatings of Cr-Ni-N System

1994 - 1995 Duplex Surface Treatment due to Combined ECR Plasma Nitriding and Ceramic Coatings

1993 - 1994 Development of Fatigue Testing Method for Thin Films and Fine Wires and SEM In-Situ-Observation of Their Failure Process

1992 - 1993 イオン窒化とセラミックコーティングを連続化したプラズマ利用複合表面処理

1990 - 1991 イオン窒化後,窒化物系セラミックスを被覆する新複合表面処理法の開発

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Papers (50)：

N. Yasumaru, E. Sentoku, T. Toya, R. Tominaga, T. Harigai, H. Takikawa, T. Tanimoto. Laser-induced graphitized periodic surface structure formed on tetrahedral amorphous carbon films. DIAMOND AND RELATED MATERIALS. 2020. 107. 107909
N. Yasumaru, H. Kasashima, E. Sentoku, H. Funabora. Corrosion performance of DLC coatings with laser-induced graphitized periodic surface structure. DIAMOND AND RELATED MATERIALS. 2020. 109. 108046-108046
千徳英介, 安丸尚樹, 峠正範. フェムト秒レーザーによる硬質膜へのナノ周期構造形成. 素形材. 2019. 60. 2-8
Naoki Yasumaru, Eisuke Sentoku, Junsuke Kiuchi. Corrigendum to ‘Formation of organic layer on femtosecond laser-induced periodic surface structures’ [Applied Surface Science, 405(2017)267-272] (S0169433217304464) (10.1016/j.apsusc.2017.02.084)). Applied Surface Science. 2018. 456. 1014
Naoki Yasumaru, Eisuke Sentoku, Junsuke Kiuchi. Formation of organic layer on femtosecond laser-induced periodic surface structures. APPLIED SURFACE SCIENCE. 2017. 405. 267-272

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MISC (84)：

安丸尚樹. フェムト秒レーザーのDLC等炭素材料への照射効果. 材料照射効果研究会 - 福井県嶺南地域発信. 2020
安丸尚樹, 千徳英介, 笠嶋遙, 滝川浩史, 針谷達,富永. フェムト秒レーザーによるナノ構造付与高機能DLC表面の創製. 2019年度先進的技術に関するシンポジウム. 2020
安丸尚樹, 千徳英介, 岩壁駿, 小林大貴, 滝川浩史, 針谷達, 谷本壮, 戸谷陽文. フェムト秒レーザーによるナノ構造付与高機能DLC表面の創製. 2018年度先進的技術に関するシンポジウム. 2019
N. Yasumaru, H. Kasashima, H. Funabora, E. Sentoku. Electrochemical properties of femtosecond laser-induced periodic surface structures formed on nitrided stainless steel. Abstract book of the 19th International Symposium on Laser Precision Microfabrication (LPM2018、エジンバラ). 2018. 285
N. Yasumaru, E. Sentoku, J. Kiuchi. Cellulose derivative film formed on femtosecond laser-induced periodic surface structures. Abstracts of 2nd International Conference on Applied Surface Science (ICASS2017、大連),. 2017

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Patents (4)：

笛
炭素薄膜の加工方法及び製造方法
超短パルスレーザーを用いた微細加工方法及びその加工物
摺動材及びその製造方法

Books (2)：

金属加工実験・実習指導書(共著)
日本産業技術教育学会・金属加工分科会 1998
材料工学の基礎
朝倉書店全212頁 1995

Works (2)：

サウンドディスク(意匠登録第1638717号 )
安丸尚樹、松田英孝、小林大貴 2018 -
顕微鏡組織のマルチメディア図鑑
1999 -

Education (2)：

1978 - 1980 Kyoto University
1974 - 1978 Kyoto University Faculty of Engineering

Professional career (2)：

Doctor of Engineering (Kyoto University)
Master of Engineering (Kyoto University)

Work history (3)：

1982/03 - 現在福井工業高等専門学校機械工学科
1980 - 1982 松下電器産業(株)技術本部材料研究所
1980 - 1982 Materials Labo., Matsushita Elec. Ind. Co., Ltd.

Awards (1)：

2019/11 - 日本金属学会・日本鉄鋼協会北陸信越支部功績賞

Association Membership(s) (5)：

レーザー学会 , 日本機械学会 , 日本応用物理学会 , 日本金属学会 , 表面技術協会

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