Koyama Shinji

コヤマシンジ | Koyama Shinji

Affiliation and department：
Job title： Associate Professor

Research field (5)： Machine elements and tribology , Design engineering , Machine materials and mechanics , Material fabrication and microstructure control , Manufacturing and production engineering

Research keywords (14)：はんだ , 鉄鋼 , 表面改質 , ろう付 , 接合 , 金属材料 , 機械加工 , solder , iron and steel , surface modification , brazing , joining , metallic material , machining

Research theme for competitive and other funds (9)：

2020 - 2024 金属塩の生成・分解挙動の可視化とマルチマテリアル造形技術への応用
2017 - 2020 Creation of low temperature sinterable metal nanoparticles and application to precision assembly and joining
2015 - 2017 Fabrication of high plateau stress and wide plateau region porous aluminum
2014 - 2017 Development of metal salt coated insert sheet and their application to low temperature precise bonding
2012 - 2016 Producing high functional resin/metal heterogeneous interface for SiC power devices

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Papers (43)：

Shinji Koyama, Ikuo Shohji, Takako Muraoka. Solid State Bonding of Tin and Copper by Metal Salt Generation Bonding Technique Using Citric Acid. MATERIALS TRANSACTIONS. 2022
Takaya Yamamoto, Yoshihiko Hangai, Hironao Mitsugi, Shinji Koyama1, Ryosuke Suzuki, Masaaki Matsubara, Hidetoshi Fujii. Fabrication of porous aluminum composites containing hollow ceramics. Journal of Porous Materials. 2022. 29. 1363-1368
Shinji Koyama, Ikuo Shohji, Takako Muraoka. Low Temperature Solid-State Bonding of Nickel and Tin with Formic Acid Surface Modifications. MATERIALS TRANSACTIONS. 2022. 63. 6. 813-820
Tong Chen, Shinji Koyama, Shinichi Nishida, Lihua Yu. Mechanical Properties and Frictional Wear Characteristic of Pure Titanium Treated by Atmospheric Oxidation. Materials (Basel, Switzerland). 2021. 14. 12
Tong Chen, Shinji Koyama, Lihua Yu. Improvement of Mechanical, Tribological, and Fricative Reduction Properties of Pure Titanium by Boriding. APPLIED SCIENCES-BASEL. 2021. 11. 11

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MISC (269)：

小山真司. マルチマテリアル化を支える接合技術 : 各種拡散接合法のキーポイント. ボイラー・クレーン・溶接のjitsu・ten : 実務&展望. 2022. 56. 3. 20-25
小山真司. マルチマテリアル化を支える接合技術 : レーザ&電子ビーム&アーク溶接のキーポイント. ボイラー・クレーン・溶接のjitsu・ten : 実務&展望. 2022. 56. 2. 12-17
WANG Tiancheng, KOYAMA Shinji, NAKAHIRA Kenji, USUDA Tsuyoshi Sasaki. Error Performances and Robust Design Criteria for Quantum Receiver in the Presence of Phase Noise. 2022. J105-B. 3. 39-51
山坂健登, 小山真司. Effect of Bonding Surface Properties on A1070/C1020 Solid-Phase Bonding Using Electrically Assisted Bonding Method. Symposium on Microjoining and Assembly Technology in Electronics. 2022. 28th
小山真司. Report on welding.マルチマテリアル化を支える接合技術-各種拡散接合法のキーポイント-. Jitsu, Ten. 2022. 327

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Patents (11)：

金属の硬化処理方法
金属部材の接合方法
金属部材の接合方法
金属部材の接合方法
金属部材の接合方法

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Books (3)：

機械材料学
丸善 2014
精密加工と微細構造の形成技術
情報技術協会 2013
マイクロ接合・実装技術
産業技術サービスセンター 2012

Lectures and oral presentations (135)：

SUS304鋼の固相接合強度に及ぼす金属塩被膜処理効果とその持続性
(Mate2016「エレクトロニクスにおけるマイクロ接合・実装技術」シンポジウム 2016)
純Al/SUS304の固相接合強度に及ぼす金属塩生成処理の効果
(Mate2016「エレクトロニクスにおけるマイクロ接合・実装技術」シンポジウム 2016)
Solid-state Bonding of 5052 Aluminum Alloy/316L Stainless Steel by Using Organic Salt
(THERMEC'2016 2016)
ADC12圧潰ポーラスAlの発泡挙動
(軽金属学会第130回春期大会 2016)
Solid-state Bonding of 5052 Aluminum Alloy/316L Stainless Steel by Using Organic Salt
(THERMEC'2016 2016)

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Professional career (1)：

Engineering (Osaka University)

Work history (4)：

2005 - 2008 応用科学研究所第1研究室研究員
2005 - 2008 Reserch Institute for Applied Sciences
Resercher
1st LABORATORY

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