Structural characteristics and outward–inward growth behavior of tantalum oxide coatings on tantalum by micro-arc oxidation

Abstract

The coatings composed of CaTa2O6, Ta2O5 and TaO were formed on pure tantalum by micro-arc oxidation in electrolytic solutions of calcium acetate and β-glycerophosphate disodium using a pulse power supply. The morphologies, phase components, bond strengths and growth behavior of the coatings with increasing the micro-arc oxidation (MAO) time were investigated. The obtained results demonstrate that the coatings are porous without apparent interface to tantalum substrates and can tightly bond to the substrates. The growth of the coatings micro-arc oxidized (MAOed) at 350 and 450V with MAO time exhibits similar outward–inward growth characteristics and contains three stages. At earlier stage of MAO (e.g., from 0 to 1min), there is a dramatic increase in the total thickness and the total growth rate of the MAO coatings, and outward-growth dominates the growth behavior of the coatings. From 1 to 5min, the total thickness of the coatings increases gently and the total growth rate declines sharply; at this stage, the outward growth gradually slows down, and the inward growth maintains persistent enhancement. At later stage of MAO (e.g., from 5 to 15min at 350V and 5 to 20min at 450V), the inward growth plays a predominant role in the growth of the coatings.