Add to ORKGSimulations were developed for the distributions of electrical potential and incorporated anions in porous anodic alumina (PAA) films during steady-state growth. Predictions of a model for the potential distribution based on Laplace\u27s equation were compared to those of the current continuity equation in conjunction with high-field conduction. It was found that Laplace\u27s equation, which has been used previously in PAA models, resulted in strong violations of charge conservation, when the current density was evaluated using the high field conduction equation. Interface motion predicted by the current continuity equation was nearly uniform except near convex ridges on the metal-film interface. This model was extended to predict the distr...
One of the effective methods for the formation of coatings with required functional properties on ...
Aluminum foils with two different surface topographic textures were anodically oxidized at constant ...
Galvanostatic formation of nanoporous anodic films on aluminum was performed in 0.6 mol•dm− 3 maloni...
Simulations were developed for the distributions of electrical potential and incorporated anions in ...
Porous anodic alumina (PAA) films, formed by anodic oxidation in acidic solutions, contain hexagonal...
Porous anodic alumina films are produced by anodic oxidation in various acidic electrolytes. The sel...
Porous anodic oxide (PAO) films are produced when reactive metals such as Al and Ti are electrochemi...
A mathematical model was formulated for the surface film on aluminum which considered the film to co...
Films grown through the anodic oxidation of metal substrates are promising for applications ranging ...
Porous anodic oxide (PAO) films are grown by electrochemical polarization of Al, Ti, Zr, Nb, Hf, and...
This dissertation consists of two parts. First, a mathematical model was formulated to investigate t...
In this paper, the modelling of anodic oxide film growth on aluminium in alkaline solutions under ga...
The mechanism accounting for the self-organization of nanoscale pores during anodic oxidation of alu...
Real-time evolution of pre-textured anodic porous alumina growth during anodization is numerically s...
Porous anodic oxide (PAO) films are grown by electrochemical oxidation of valve metals in baths that...
One of the effective methods for the formation of coatings with required functional properties on ...
Aluminum foils with two different surface topographic textures were anodically oxidized at constant ...
Galvanostatic formation of nanoporous anodic films on aluminum was performed in 0.6 mol•dm− 3 maloni...
Simulations were developed for the distributions of electrical potential and incorporated anions in ...
Porous anodic alumina (PAA) films, formed by anodic oxidation in acidic solutions, contain hexagonal...
Porous anodic alumina films are produced by anodic oxidation in various acidic electrolytes. The sel...
Porous anodic oxide (PAO) films are produced when reactive metals such as Al and Ti are electrochemi...
A mathematical model was formulated for the surface film on aluminum which considered the film to co...
Films grown through the anodic oxidation of metal substrates are promising for applications ranging ...
Porous anodic oxide (PAO) films are grown by electrochemical polarization of Al, Ti, Zr, Nb, Hf, and...
This dissertation consists of two parts. First, a mathematical model was formulated to investigate t...
In this paper, the modelling of anodic oxide film growth on aluminium in alkaline solutions under ga...
The mechanism accounting for the self-organization of nanoscale pores during anodic oxidation of alu...
Real-time evolution of pre-textured anodic porous alumina growth during anodization is numerically s...
Porous anodic oxide (PAO) films are grown by electrochemical oxidation of valve metals in baths that...
One of the effective methods for the formation of coatings with required functional properties on ...
Aluminum foils with two different surface topographic textures were anodically oxidized at constant ...
Galvanostatic formation of nanoporous anodic films on aluminum was performed in 0.6 mol•dm− 3 maloni...