Litcius/Paper detail

The influence of ultrasonic vibration on micro-arc oxidation behaviour of manganese aluminium bronze

Xiangzhe Meng, Liyang Zhu, Yanyan Li, Pengfei Hu, Guangyi Cai, Jiejun Liu, Qing Zhang, Zehua Dong, Xinxin Zhang

2024Journal of Materials Research and Technology11 citationsDOIOpen Access PDF

Abstract

As a promising material for marine engineering, the insufficient corrosion resistance of manganese aluminium bronze (MAB) alloy when exposed to the marine environment may limit its application. In the present work, micro-arc oxidation (MAO) of MAB alloy was conducted in an aluminate-based electrolyte with the influence of ultrasonic vibration (UV) examined. A porous ceramic film has been successfully produced on MAB via MAO, which exhibits dramatic increases in both film thickness and compactness after the introduction of UV. As a result, the ceramic film produced by ultrasound-assisted MAO (UMAO) exhibits an enhanced corrosion resistance relative to that via MAO, which also possesses a desired antifouling capability. Hence, the present work illustrates the influence of UV on the MAO behaviour of non-valve alloys and, more importantly, provides theoretical guidance for related surface modification strategies in marine engineering. • Ceramic film could be produced on manganese aluminium bronze via MAO in an aluminate-based electrolyte. • Metallic Cu and Cu 2 O nanoparticles co-exist across the ceramic film produced via UMAO. • Ultrasound assistance benefits the thickness and compactness of ceramic film. • Enhanced corrosion resistance could be achieved with ultrasound assistance.

Topics & Concepts

Materials scienceBronzeAluminiumManganeseMetallurgyMicro arc oxidationUltrasonic sensorVibrationArc (geometry)MicrostructureAcousticsMechanical engineeringEngineeringMagnesium alloyPhysicsMetallurgy and Material ScienceNanoporous metals and alloysCorrosion Behavior and Inhibition