Wear-accelerated corrosion of Ti-6Al-4V and nitrogen-ion-implanted Ti-6Al-4V: Mechanisms and influence of fixed-stress magnitude

## Abstract Nitrogen‐ion‐implanted Ti‐6Al‐4V against UHMW polythylene was tested on a joint simulator to evaluate the wear behavior under different conditions. It was concluded that the polymer wear rate was not affected by ion implantation. The metallic wear, on the other hand, was substantially r

The influence of nitrogen-ion implantation on the wear-accelerated corrosion behavior of surgical Ti-6A1-4V was studied. Nonpassivated and prepassivated unimplanted Ti-6A1-4V specimens were employed as controls for comparison. Corrosion rates as a function of time at open-circuit corrosion potential

## Abstract Si‐incorporated diamond‐like carbon (Si‐DLC) coatings ranging from 0 to 2 at % Si were deposited on Ti‐alloy substrate by means of radio frequency plasma‐assisted chemical vapor deposition (r.f. PACVD) technique, using a mixture of benzene (C~6~H~6~) and silane (SiH~4~) as the reaction

This work studies the influence of the sintering conditions of a Ti-6Al-4V alloy on its corrosion performance. The alloy was vacuum sintered in different conditions of time and temperature. The density and microstructure (designating phase distribution) are evaluated. Corrosion resistance through el

Ti‐6Al‐4V alloy has attracted increasing applications as a metallic biomaterial in recent years thanks to its good corrosion resistance and biocompatibility. However, the poor corrosion‐wear resistance of the alloy is thus a major concern to potential users. In this paper, the electrochemical noise

This work seeks to investigate the nanosurface characteristics and ion release for a Ti6Al4V alloy prepared by various methods (as received and heat treated at 1300°C for 2 h) with three different passivation treatments (34% nitric acid passivation, 400°C heating in air, and aging in 100°C deionized