The mechanism of growth of porous anodic Al2O3 films on aluminium at high film thicknesses

A strict kinetic model, governing the growth of porous anodic 01 2 0 3 films, was developed in a form easily and directly applicable to a galvanostatic anodization in a stirred bath at constant temperature . It was applied to the experimental results obtained from film growth at 25 °C, 1SmAcm -2 and

A kinetic study on the growth of porous anodic Al,O, films on Al metal, anodized galvanostatically at current densities 5-75mAcm-' in a stirred 15% w/v H,SO, bath solution at bath temperatures 204OYZ, was performed. A strict kinetic model was formulated which was, nevertheless, rather complex. There

The temperature distribution alongthe vertical pores of the anodicoxide films onalumhrium was calculated for usual conditions of anodizing in 10% sulphuric acid solution by taking into account the accumulation of both Joule heat and the heat of formation of oxide at the pore-base and the outward con

## Aluminium specimens were anodized galvanostatically in a thermostated and vigorously stirred bath of H,SO, 15% w/v at different bath temperatures and current densities and for long anodization times, suflicient to produce the maximum or near maximum limiting film thickness, and the anodic poten

## Ahstrati-Porous anodic Al,4 flhns were investigated for their behaviour during hydrothermal treatment in H,O at 100°C and a mechanism for the process of oxide hydration was proposed. The films were prepared galvanostatically in a 15% w/v HsSO, bath at 20, 25 and 30°C and at 5, 15 and 35 mA cm-'

Thick coloured oxide films are produced on aluminium by anodic oxidation in the non-aqueous system of boric-acid-formamide. The films are hard and compact and the colour tone changes from yellow, through brown, to black as the film becomes thicker. The properties and mechanism of formation of the f