Daisaku Maeda scite author profile

Daisaku Maeda

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Sanyo-Onoda City University

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Effect of Compressive Residual Stress on Film Formed by Mechanochemical Multifunction Cavitation Processing

Ijiri

Kato

Maeda

et al. 2021

MSF

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Recently, mechanochemical multifunction cavitation (MC-MFC) was developed to improve the corrosion resistance of the magnesium surface. MFC is a technology that combines water jet peening and ultrasound cavitation. MC-MFC is a technology that adds phosphoric acid to water. It can improve the corrosion resistance by forming a phosphate film on the Mg surface. Conventional anodic oxidation, plating, and chemical vapor deposition can improve corrosion resistance by forming a film on the Mg surface, but it is difficult to improve characteristics such as compressive residual stress on the surface. MFC-treated surfaces have previously imparted various properties such as imparting compressive residual stress necessary to improve the fatigue strength to Al alloys and Cr-Mo steels. In this study, the effect of film formed on MC-MFC processed surface on compressive residual stress was investigated.

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Study on corrosion resistance control of magnesium alloy by high-temperature and highpressure cavitation

Kato

Maeda

Shimonisi

et al. 2020

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Daisaku Maeda

Effect of Compressive Residual Stress on Film Formed by Mechanochemical Multifunction Cavitation Processing

Study on corrosion resistance control of magnesium alloy by high-temperature and highpressure cavitation

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