Anodization Treatment of Ti6Al4V in Electrolytes Containing HF

Anodization Treatment of Ti6Al4V in Electrolytes Containing HF

The Ti6Al4V alloy is already well-known likely material for implant applications. As well as pure titanium, Ti6Al4V alloy possess the ability to form spontaneously a thin passive oxide layer on the surface. This oxide layer provides an enhanced biocompatibility and may be optimum for the osseointeg...

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Main Authors: Emanuela-Daniela STOICA, Fedor S. FEDOROV, Maria NICOLAE, Margitta UHLEMANN, Annett GEBERT
Format: Article
Language:English
Published: Galati University Press 2013-03-01
Series:The Annals of “Dunarea de Jos” University of Galati. Fascicle IX, Metallurgy and Materials Science
Subjects:
anodization
nanotube
nanopore
oxide
HF concentration
Online Access:https://www.gup.ugal.ro/ugaljournals/index.php/mms/article/view/2845
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spelling doaj-95c4bc10a4ab4dd89b9b84f4364625ad2021-07-02T18:31:35ZengGalati University PressThe Annals of “Dunarea de Jos” University of Galati. Fascicle IX, Metallurgy and Materials Science2668-47482668-47562013-03-013612845Anodization Treatment of Ti6Al4V in Electrolytes Containing HFEmanuela-Daniela STOICA0Fedor S. FEDOROV1Maria NICOLAE2Margitta UHLEMANN3Annett GEBERT4Politehnica University of Bucharest, Romania; IFW Dresden, Institute of Complex Materials, GermanyIFW Dresden, Institute of Complex Materials, GermanyPolitehnica University of Bucharest, RomaniaIFW Dresden, Institute of Complex Materials, GermanyIFW Dresden, Institute of Complex Materials, Germany The Ti6Al4V alloy is already well-known likely material for implant applications. As well as pure titanium, Ti6Al4V alloy possess the ability to form spontaneously a thin passive oxide layer on the surface. This oxide layer provides an enhanced biocompatibility and may be optimum for the osseointegration if it is applied a tailoring of the surface topology and chemistry. The present paper addresses a study of Ti6Al4V surface modification by anodization as function of HF concentration in electrolyte and time, with the purpose to achieve an ordered porous titanium oxide layer. Prior to the anodization treatment the as-prepared surfaces were microstructurally characterized by SEM, EDX and XRD. The oxidized surfaces were subjected to SEM measurement in order to observe the achieved morphology. https://www.gup.ugal.ro/ugaljournals/index.php/mms/article/view/2845anodizationnanotubenanoporeoxideHF concentration
collection DOAJ
language English
format Article
sources DOAJ
author Emanuela-Daniela STOICA
Fedor S. FEDOROV
Maria NICOLAE
Margitta UHLEMANN
Annett GEBERT
spellingShingle Emanuela-Daniela STOICA
Fedor S. FEDOROV
Maria NICOLAE
Margitta UHLEMANN
Annett GEBERT
Anodization Treatment of Ti6Al4V in Electrolytes Containing HF
The Annals of “Dunarea de Jos” University of Galati. Fascicle IX, Metallurgy and Materials Science
anodization
nanotube
nanopore
oxide
HF concentration
author_facet Emanuela-Daniela STOICA
Fedor S. FEDOROV
Maria NICOLAE
Margitta UHLEMANN
Annett GEBERT
author_sort Emanuela-Daniela STOICA
title Anodization Treatment of Ti6Al4V in Electrolytes Containing HF
title_short Anodization Treatment of Ti6Al4V in Electrolytes Containing HF
title_full Anodization Treatment of Ti6Al4V in Electrolytes Containing HF
title_fullStr Anodization Treatment of Ti6Al4V in Electrolytes Containing HF
title_full_unstemmed Anodization Treatment of Ti6Al4V in Electrolytes Containing HF
title_sort anodization treatment of ti6al4v in electrolytes containing hf
publisher Galati University Press
series The Annals of “Dunarea de Jos” University of Galati. Fascicle IX, Metallurgy and Materials Science
issn 2668-4748
2668-4756
publishDate 2013-03-01
description The Ti6Al4V alloy is already well-known likely material for implant applications. As well as pure titanium, Ti6Al4V alloy possess the ability to form spontaneously a thin passive oxide layer on the surface. This oxide layer provides an enhanced biocompatibility and may be optimum for the osseointegration if it is applied a tailoring of the surface topology and chemistry. The present paper addresses a study of Ti6Al4V surface modification by anodization as function of HF concentration in electrolyte and time, with the purpose to achieve an ordered porous titanium oxide layer. Prior to the anodization treatment the as-prepared surfaces were microstructurally characterized by SEM, EDX and XRD. The oxidized surfaces were subjected to SEM measurement in order to observe the achieved morphology.
topic anodization
nanotube
nanopore
oxide
HF concentration
url https://www.gup.ugal.ro/ugaljournals/index.php/mms/article/view/2845
work_keys_str_mv AT emanueladanielastoica anodizationtreatmentofti6al4vinelectrolytescontaininghf
AT fedorsfedorov anodizationtreatmentofti6al4vinelectrolytescontaininghf
AT marianicolae anodizationtreatmentofti6al4vinelectrolytescontaininghf
AT margittauhlemann anodizationtreatmentofti6al4vinelectrolytescontaininghf
AT annettgebert anodizationtreatmentofti6al4vinelectrolytescontaininghf
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