Predictive Modeling of the Ti6Al4V Alloy Surface Roughness

In the present work the influence of roughness of the material surface with hydrogen absorption in Tie6Ale4V alloy during four hydrogenated cycles is studied. The Tie6Ale4V alloy samples were hydrogenated during several cycles at 650 C for two hours, in 50% hydrogen and 50% argon atmospheres, 1 atm

Surface modification of titanium alloy (Ti-6Al-4V) by nitrogen implantation at the energy 120 keV with doses ranging from 1 × 10 16 to 1 × 10 18 N + /cm 2 have been investigated from the tribological point of view. Implantation of nitrogen ions was performed in two different ways: (a) when no carbon

## Abstract This communication presents a novel technology to enhance the biocompatibility of bioinert Ti6Al4V alloy as implant materials for orthopaedic application. The surface of Ti6Al4V alloy was electrochemically activated in NaOH solution to create a porous structure with nanometer topographi

## 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