1060铝合金微弧氧化黑色陶瓷膜显色特性及着色机理

Color Characteristic and Formation Mechanism of Black Ceramic Coating by Micro Arc Oxidation on 1060 Aluminum Alloy

目的采用微弧氧化技术在1060铝合金表面制备黑色陶瓷膜,并且讨论黑色膜的显色机理。方法在不同电解液体系中制备出不同黑色度的陶瓷膜,通过测色仪及EDS,XPS,SEM等测定膜层的显色特性、成分和表观形貌。结果 Na2WO4和NH4VO3添加量对膜层显色特性和表观形貌影响较大,随着二者添加量的增加,膜层黑色度增加,表面粗糙度减小。结论微弧氧化过程中,电解液中的WO42-和VO3-参与了成膜反应,生成了V2O5,V2O3,WO x和WO3等具有黑色显色特性的氧化物,并分布于整个膜层和多孔结构中,这是黑色显色特性的主因。随着Na2WO4和NH4VO3添加量的增加,显色氧化物在膜层和孔结构中存在的数量增加,使得膜层粗糙度降低。

Objective Black ceramic coating was obtained by micro-arc oxidation on the surface of 1060 aluminum alloy and the mechanism of the black ceramic coating was discussed. Methods The blackness, composition, microstructure of ceramic coating in different electrolytes were studied by c010r measurement instrument, EDS, XPS, SEM and other methods. Results The results showed that the addition amount of Na2WO4 and NH4VO3 had great effects on the coating color features and apparent morphology, as the Na2WO4 and NH4VO3 contents increased, the blackness degree of the membrane layer increased, while the surface rough- ness decreased. Conclusion In the process of micro-arc oxidation, the WO42- and VO3- ions in the electrolyte were involved in the film forming reaction, generating the V205, V2 03, WOx and WO3 oxides with black color characteristics, which were distributed throughout the film layer and the porous structure, leading to the black color features. With the increase in the addition amount of Na2WO4 and NH4VO3 , the amount of color oxides in the membrane layer and the pore structure increased, reducing the roughness of the film layer.