Research field (2):
Marine and maritime engineering
, Machine materials and mechanics
Research keywords (4):
船用機械工学
, 腐食工学
, Maine Engineering
, Corrosion Engineering
Research theme for competitive and other funds (19):
2015 - 2018 Fundamental research of corrosion fatigue at galvanized steel
2014 - 2018 Development of marine microbial fuel cell assenbled dye sensitized TiO2 anode
2013 - 2015 Study on microstructure control in Ti-O alloy and its deformation mode
2010 - 2012 Study on effect of ozone for corrosion behavior of mild steel in seawater
2009 - 2011 Study on Practical Application of Marine Microbial Fuel Cell
2007 - 2008 Fundamental Study on Development of Corrosion Control Technique for Anti-corrosion Materials in Marine and Offshore Structures using Radiation Induced Surface Activation
2006 - 2008 Basic Study on Assembling Marine Biofilm Battery
2005 - 2006 Fundamental Study on Corrosion Control using Radiation Induced Surface Activation for Marine Use
2003 - 2004 Corrosion Control for Internal Structure of Nuclear Reactor Based on Radiation Induced Surface Activation Phenomenon
TiO2太陽電池
微生物燃料電池
ACM型腐食センサによる実環境の腐食性評価
腐食疲労
微生物腐食
大気腐食
Corrosivity of Atmosphere by means of ACM type corrosion sensor.
Corrosion Fatigue
Microbiologically Influenced Corrosion
Atmospheric Corrosion
Show all
Papers (16):
Sota Koyama, Norifusa Inaba, Motoaki Morita, Shinichi Motoda. Preferential Site for Scaling on Carbon Steel with Corrosion Products. ISIJ International. 2022. 62. 7. 1493-1501
Shatumbu Thomas Alweendo, Motoaki Morita, Kayo Hasegawa, Shinichi Motoda. Fatigue Properties of Hot-Dip Galvanized AISI 1020 Normalized Steel in Tension-Compression and Tension-Tension Loading. Materials. 2021. 14. 23. 7480-7480
Motoaki Morita, Ayumu Yamaguchi, Sota Koyama, Shinichi Motoda. Method for imitating magnesium silicate scale formed at the geothermal power plant in Obama Hot Spring, Japan. Geothermics. 2021. 96
Koyama Sota, Inaba Norifusa, Morita Motoaki, Motoda Shinichi. Preferential Site for Scaling on Carbon Steel with Corrosion Products. Tetsu-to-Hagane. 2021. 107. 10. 814-824
Kayo Hasegawa, Motoaki Morita, Shinichi Motoda. Effect of Microstructure at Coating Layer on Fatigue Strength in Hot-Dip Galvanized Steel. ISIJ International. 2020. 60. 11. 2525-2532
長谷川 嘉代, 盛田 元彰, 元田 慎一. 溶融亜鉛めっきした中炭素鋼材の湿度制御下における疲労特性-Fatigue Property of Galvanized Medium Carbon Steel in Controlled Humidity. 表面技術 = Journal of the Surface Finishing Society of Japan. 2022. 73. 4. 186-194
