Effects of precoating surface treatments on fatigue of Ti-6Al-4V

## Abstract Stem modularity in total hip replacement introduces an additional taper joint between Ti‐6Al‐4V stem components with the potential for fretting corrosion processes. One possible way to reduce the susceptibility of the Ti‐6Al‐4V/Ti‐6Al‐4V interface to fretting is the surface modification

Microknurling, a high pressure surface indentation technique, was devised as an alternative to traditional heat-bonded porous coatings found on many orthopedic implants designed for fixation by tissue ingrowth. Heat-bonded porous coating can cause at the surface of an implant stress concentrations t

The general topic of fatigue in implant materials and in Ti-6A1-4V alloy systems specifically is of great concert to researchers, producers, surgeons, and patients. Any thorough evaluation is always welcome. However, there are a few points made in the article that must be clarified. The authors sta

## 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 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