Formation Mechanism of Porous Anodic Aluminium and Titanium Oxides

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

Ahstrati-The kinetics of the low temperature anodic oxidation of titanium silicide in KNO, solutions in ethylene glycol has been investigated as a function of the anodization current density. A strong influence of the anodic current density in the oxide composition, as determined by Rutherford backs

## Abstract Optical microscopy (OM), scanning electron microscopy (SEM) and analytical transmission electron microscopy (AEM) were used to characterise anocid films on aluminium. Of special interest in our investigations was to study the dependence of the microstructure of the films on the current

Commercially pure titanium was anodized in an electrolytic solution that was dissolved calcium and phosphorus compounds in water, and an AOFCP (anodic titanium oxide film containing Ca and P) was formed. It was found that sodium P-glycerophosphate (P-GP) and calcium acetate (CA) were suitable for th

Aluminium can be anodically oxidized in the low temperature melts (lOO-250°C) of bisulphates or their mixed systems with the formation of a-alumina (Corundum) film. For example, in KHSU,NaHSO, (2 : 1 mol) mixture at 180°C at 1 A/dm2 by applying O-160 V for 30 min, a aber sehr hart. Sie wird von Chem

## 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