关键词: 渗铝氧化处理, 氧化膜, 热熔损, 静态熔损, 动态熔损

Abstract: The 8407 steel specimen with Al coating obtained by cold spray of Al powder was diffused at 550℃ for 4 h, then room temperature hard anodic oxidation was executed at 2.5 A/dm2 for 60 min for formation of Fe3O4×Al2O3 film on its surface. The melting-loss properties of specimens with aluminization and oxidation treatment and without treatment in liquid aluminum alloy of ADC12 at 620℃ under settlement and rotation conditions were evaluated by weight loss method. The microstructures of cross sections were observed by optical microscope after melting-loss test. The microstructure and local composition of Fe-Al interface structure of surface untreated specimen melting-loss tested were examined by SEM to explore the melting-loss mechanism of 8407 steel. Finally, the anti-melting-loss mechanism of oxide film was discussed. The results show that the formed Fe3O4×Al2O3 film can improve melting-loss resistance especially under the dynamic condition by reducing the wettability between steel and molten aluminum because it isolates steel substrate from liquid aluminum.

Key words: aluminization and oxidation treatment, oxide film, melting-loss, static melting-loss, dynamic melting-loss