AbstractUltrafine grain sized titanium (UFG Ti) obtained by severe plastic deformation presents a bright potential for biomedical applications because it provides the strength of titanium alloys without toxic alloying elements, such as Al and V that, by dissolving away from the implant, may be harmful to human health. The most recent developments and challenges in this field are reviewed. UFG Ti mini-devices were implanted in rabbits and the removal torque was compared with that of conventional commercially pure (cp) grain sized Ti Grade 2 and Ti6Al4V alloy Grade 5. The osseointegration of the UFG Ti was slightly superior of that of cp Ti Grade 2. The microstructure and mechanical properties of the UFG Ti, with special emphasis on dental im...
Nb, Ta and Zr are the favorable non-toxic alloying elements for titanium alloys for biomedical appli...
Titanium alloys are widely accepted as orthopedic or dental implant materials in the medical field. ...
Advances in biomaterials science and implant surface technology have made dental implants more predi...
The present work focuses mainly on an in vivo evaluation of ultra fine grained titanium (UFG-Ti) obt...
Titanium and its alloys are favourite materials for medical implant applications. They owe this popu...
Commercially pure titanium (cp-Ti) is an ideal biomaterial as it does not evoke an inflammatory fore...
COMTES FHT has been active in a field of research and development of high-strength wires for quite s...
Commercially pure titanium (Ti G2 and Ti G4) and the Ti–6Al–4V (Ti G5) alloy have limitations for bi...
The study is aimed to virtually miniaturize medical implants produced of the biocompatible Ti with i...
This paper evaluates the fatigue strength of ultrafine-grained (UFG) Grade 4 Ti in the low-cycle fat...
Ti and Ti-based alloys have unique properties such as high strength, low density and excellent corro...
Compared with stainless steel and Co–Cr‐based alloys, Ti and its alloys are widely used as biomedica...
Titanium and titanium alloys possess various properties which contribute to their superior osseointe...
Ti-based alloys are finding ever-increasing applications in biomaterials due to their excellent mech...
A novel titanium-based material, containing no toxic or expensive alloying elements, was compared to...
Nb, Ta and Zr are the favorable non-toxic alloying elements for titanium alloys for biomedical appli...
Titanium alloys are widely accepted as orthopedic or dental implant materials in the medical field. ...
Advances in biomaterials science and implant surface technology have made dental implants more predi...
The present work focuses mainly on an in vivo evaluation of ultra fine grained titanium (UFG-Ti) obt...
Titanium and its alloys are favourite materials for medical implant applications. They owe this popu...
Commercially pure titanium (cp-Ti) is an ideal biomaterial as it does not evoke an inflammatory fore...
COMTES FHT has been active in a field of research and development of high-strength wires for quite s...
Commercially pure titanium (Ti G2 and Ti G4) and the Ti–6Al–4V (Ti G5) alloy have limitations for bi...
The study is aimed to virtually miniaturize medical implants produced of the biocompatible Ti with i...
This paper evaluates the fatigue strength of ultrafine-grained (UFG) Grade 4 Ti in the low-cycle fat...
Ti and Ti-based alloys have unique properties such as high strength, low density and excellent corro...
Compared with stainless steel and Co–Cr‐based alloys, Ti and its alloys are widely used as biomedica...
Titanium and titanium alloys possess various properties which contribute to their superior osseointe...
Ti-based alloys are finding ever-increasing applications in biomaterials due to their excellent mech...
A novel titanium-based material, containing no toxic or expensive alloying elements, was compared to...
Nb, Ta and Zr are the favorable non-toxic alloying elements for titanium alloys for biomedical appli...
Titanium alloys are widely accepted as orthopedic or dental implant materials in the medical field. ...
Advances in biomaterials science and implant surface technology have made dental implants more predi...