Morphology of composite coatings formed on Mo1 substrate using hot-dip aluminising and micro-arc oxidation techniques

• Published in: Applied surface science Vol. 508; p. 144761
• Main Authors: Wang, Shao-Peng, Zhou, Lian, Li, Chang-Jiu, Li, Zheng-Xian, Li, Hong-Zhan, Yang, Li-Jing
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.04.2020
• Subjects: Hot-dip aluminising; Micro-arc oxidation; Molybdenum; Molybdenum; Hot-dip aluminising; Micro-arc oxidation
• ISSN: 0169-4332; 1873-5584
• DOI: 10.1016/j.apsusc.2019.144761

[Display omitted] •A hot-dip aluminised layer was prepared on the Mo1 substrate.•The obtained diffusion layer was mainly composed of Al8Mo3, Al4Mo, Al12Mo phase.•Three-layer coatings were formed on the Mo1 substrate. A hot-dip aluminised layer was prepared on a Mo1 substrate and the obtained layer was oxidised in situ by a micro-arc oxidation (MAO) technique to form an oxide ceramic coating. The obtained hot-dip aluminised layer had a two-layer structure overall: the outer layer was a pure aluminium layer, and the inner layer was a diffusion layer. The hot-dip aluminising temperature directly influenced the structure and phase composition of the obtained diffusion layer. The diffusion layer of the hot-dip aluminised layer at 710 °C was divided into three layers. The inner, intermediate, and outer layers were mainly composed of Al8Mo3, Al4Mo, and Al12Mo phases, respectively. The diffusion layer of the hot-dip aluminised layer at 750 °C was divided into two layers: the inner layer was mainly composed of an Al8Mo3 phase, and the outer layer of Al4Mo. After the hot-dip aluminised layer was treated by MAO, a three-layer coating was obtained. The outer layer was a ceramic one obtained by MAO, which was mainly composed of Al2O3, mullite, and unoxidized aluminium. The middle one was pure aluminium obtained by hot-dip aluminising and without MAO. The inner layer was an Al–Mo diffusion layer.