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機構に所属する研究者の発表した論文を、タイトル・抄録・分野などから検索することができます。論文の分野はクラリベイト社のESI分類を参考に分類しています(Materials Science, Physics, Chemistry, Engineering, Biologyなど)。
最終更新日: 2024年04月24日
| 10件の論文が見つかりました。論文は出版年月日順に表示しています。(ヘルプ) | |
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| 真中智世, 堤 祐介, 蘆田茉希, 陳 鵬, 片山 英樹, 塙 隆夫. 塩化物環境におけるジルコニウムの局部腐食を抑制する電気化学表面処理法の開発. Zairyo to Kankyo/ Corrosion Engineering. (2020) 307-314 | |
| 藤橋健太, 奥地 誠, 押川 渡, 田原 晃, SHINOHARA, Tadashi, KATAYAMA, Hideki. Exposure Corrosion Test of Metal Piles for a Shallow Soil Horizon. CORROSION ENGINEERING. (2018) 200-206 | |
| HIROMOTO, Sachiko. IV. Electrochemical Measurements in Various Environments: Electrochemical Measurements of Metallic Biomaterials. Corrosion Engineering. (2018) 441-451 | |
| KATAYAMA, Hideki. IV. Electrochemical Measurements in Various Environments: Atmospheric Corrosion II (Electrochemical Impedance Method). CORROSION ENGINEERING. [7] (2018) 258-266 10.3103/s0892422818070030 | |
| Sachiko Hiromoto, HIROMOTO, Sachiko. Corrosion Behavior of Magnesium Alloys for Biomedical Use. CORROSION ENGINEERING. 63 [6] (2014) 294-302 10.3103/s0892422814060044 | |
| AKIYAMA Eiji. Fretting Corrosion Fatigue of Biomaterials. CORROSION ENGINEERING. 63 [6] (2014) 303-309 10.3103/s0892422814060032 | |
| Jin Kawakita, Tadashi Shinohara, Makoto Watanabe, Yoshitaka Adachi, KAWAKITA, Jin, SHINOHARA, Tadashi, WATANABE, Makoto, Yoshitaka Adachi. Three-Dimensional Observation of Stress Corrosion Cracking by X-ray Computed Tomography. CORROSION ENGINEERING. 62 [3] (2013) 90-93 | |
| KAWAKITA Jin. Development of Corrosion Protection Coatings Based on the Impact/Deposition Phenomenon of Supersonic Particles. CORROSION ENGINEERING. 60 [6] (2011) 233-237 10.3103/s0892422811060036 | |
| Sachiko HIROMOTO(KUBO). Corrosion Behavior of Pure Magnesium in Simulated Body Fluids with Various Flow Speeds. CORROSION ENGINEERING. 59 [9] (2010) 246-249 10.3103/s089242281008003x | |
| Sachiko Hiromoto, Joerg Ziegler, Akiko Yamamoto, ZIEGLER, Joerg, HIROMOTO, Sachiko, YAMAMOTO, Akiko. Mosphological Change of Fibroblast Cells on Titanium and Platinum Cultured at Anodic and Cathodic Potentials. CORROSION ENGINEERING. 57 [9] (2008) 521-535 | |
