Regularities of filamentary channels formation during formation of nanostructured non-metallic inorganic coatings in microplasma galvanostatic mode in solutions
This paper presents the theoretical models describing the growth of filamentary channels of nanostructured non-metallic coatings formed by anodizing and microplasma oxidation. The authors identified dependences of the number of pores on the coating thickness. The paper presents graphic dependences of the number of filamentary channels on the process time and the coating thickness. These dependences allow calculating through and surface porosity, and in cases, when the pores are filled with functional material, they allow calculating the concentration distribution of this functional material throughout the coating thickness. The theoretical models enhance our understanding of the nature of anode processes and can be used to describe and forecast the growth and filling of porous coatings, so they can also be used to create functional and bioactive materials.
Russian physics journal. 2016. Vol. 58, № 12. P. 1720-1725
Language
eng
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Regularities of filamentary channels formation during formation of nanostructured non-metallic inorganic coatings in microplasma galvanostatic mode in solutions