Development of anodic coatings on aluminium under sparking conditions in silicate electrolyte

Autor: F. Monfort, Endzhe Matykina, Kenichi Shimizu, Peter Skeldon, Hiroki Habazaki, G.E. Thompson, A. Berkani
Rok vydání: 2007
Předmět:
Zdroj: Corrosion Science. 49:672-693
ISSN: 0010-938X
Popis: Spark anodizing of aluminium at 5 A dm−2 in sodium metasilicate/potassium hydroxide electrolytes is studied, with particular emphasis on the mechanism of coating growth, using transmission electron microscopy and surface analytical techniques, with coatings typically 10 μm, or more, thick. Two-layered coatings develop by deposition of an outer layer based on amorphous silica, associated with low levels of alkali-metal species, at the coating surface and growth of an inner, mainly alumina-based, layer, with an amorphous region next to the metal/coating interface. Formation of crystalline phases in the inner layer, mainly γ-Al2O3, with some α-Al2O3 and occasional δ-Al2O, is assisted by local heating, and possibly also by ionic migration processes, arising from the rapid coating growth at sites of breakdown. Due to local access of electrolyte species in channels created by breakdown events, the silicon content in the inner coating regions varies widely, ranging from negligible levels to about 10 at.%. Silica deposition at the coating surface and formation of Al2SiO5 and Al6Si2O13 phases is promoted by increased time of anodizing and concentration of metasilicate in the electrolyte. However, at sufficiently high concentration of metasilicate and pH, when more extreme voltage fluctuations accompany breakdown, the two-layered nature of coatings is replaced by a mixture of aluminium-rich and silicon-rich regions throughout the coating thickness.
Databáze: OpenAIRE