A study of cumulative fatigue damage in titanium 6Al-4V alloy

## Abstract The trend in design and fabrication of aerospace structure is moving rapidly towards the use of composite materials and the consolidation of many pieces into large monolithic assemblies. Titanium alloy 6Al‐4V is more compatible with composite materials than aluminum alloys because of it

Ahatraet-The cyclic stress-strain behavior and the SIN behavior of a "pseudo-elastic" alloy, Ti-6AL-4V of coarsened micros~uct~ and of a "plastic" material, copper, are compared. In accord with views recently put forth by Freudenthal, important differences are noted between these two types of materi

## Abstract The aim of this study was to evaluate the bone response to commercially pure titanium grade I and titanium alloy grade V (90% Ti, 6% Al, and 4% V, depicted Ti6Al4V) after 8 weeks in rabbit tibia. Interference microscopy and scanning electron microscopy were used for surface analyses. Tr

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