Formation and Properties of Bioactive Surface Layers on Titanium

Abstract

The plasma electrolytic oxidation technique was used to form a calcium phosphate coating containing hydroxyapatite on a titanium implant surface. The composition, morphology, and anticorrosion and mechanical properties of the obtained layers were studied. The optimal conditions of the polarization mode and electrolyte composition were found. Experiments performed in vivo and in vitro showed that the bioactivity of deposited films depends on the chemical composition (concentrations and Ca/P ratio) and the surface roughness of calcium phosphate layers.

Original language	English
Pages (from-to)	474-481
Number of pages	8
Journal	Inorganic Materials: Applied Research
Volume	2
Issue number	5
DOIs	https://doi.org/10.1134/S2075113311050133
Publication status	Published - 29 Jun 2011

Keywords

Anticorrosion properties
Elasto-plastic properties
Hydroxyapatite
Implant
Osteogenesis
Plasma electrolytic oxidation
Titanium

ASJC Scopus subject areas

Materials Science(all)
Engineering(all)

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10.1134/S2075113311050133

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Gnedenkov, S. V., Scharkeev, Y. P., Sinebryukhov, S. L., Khrisanfova, O. A., Legostaeva, E. V., Zavidnaya, A. G., Puz, A. V., & Khlusov, I. A. (2011). Formation and Properties of Bioactive Surface Layers on Titanium. Inorganic Materials: Applied Research, 2(5), 474-481. https://doi.org/10.1134/S2075113311050133

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title = "Formation and Properties of Bioactive Surface Layers on Titanium",

abstract = "The plasma electrolytic oxidation technique was used to form a calcium phosphate coating containing hydroxyapatite on a titanium implant surface. The composition, morphology, and anticorrosion and mechanical properties of the obtained layers were studied. The optimal conditions of the polarization mode and electrolyte composition were found. Experiments performed in vivo and in vitro showed that the bioactivity of deposited films depends on the chemical composition (concentrations and Ca/P ratio) and the surface roughness of calcium phosphate layers.",

keywords = "Anticorrosion properties, Elasto-plastic properties, Hydroxyapatite, Implant, Osteogenesis, Plasma electrolytic oxidation, Titanium",

author = "Gnedenkov, {S. V.} and Scharkeev, {Yu P.} and Sinebryukhov, {S. L.} and Khrisanfova, {O. A.} and Legostaeva, {E. V.} and Zavidnaya, {A. G.} and Puz, {A. V.} and Khlusov, {I. A.}",

year = "2011",

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language = "English",

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T1 - Formation and Properties of Bioactive Surface Layers on Titanium

AU - Gnedenkov, S. V.

AU - Scharkeev, Yu P.

AU - Sinebryukhov, S. L.

AU - Khrisanfova, O. A.

AU - Legostaeva, E. V.

AU - Zavidnaya, A. G.

AU - Puz, A. V.

AU - Khlusov, I. A.

PY - 2011/6/29

Y1 - 2011/6/29

N2 - The plasma electrolytic oxidation technique was used to form a calcium phosphate coating containing hydroxyapatite on a titanium implant surface. The composition, morphology, and anticorrosion and mechanical properties of the obtained layers were studied. The optimal conditions of the polarization mode and electrolyte composition were found. Experiments performed in vivo and in vitro showed that the bioactivity of deposited films depends on the chemical composition (concentrations and Ca/P ratio) and the surface roughness of calcium phosphate layers.

AB - The plasma electrolytic oxidation technique was used to form a calcium phosphate coating containing hydroxyapatite on a titanium implant surface. The composition, morphology, and anticorrosion and mechanical properties of the obtained layers were studied. The optimal conditions of the polarization mode and electrolyte composition were found. Experiments performed in vivo and in vitro showed that the bioactivity of deposited films depends on the chemical composition (concentrations and Ca/P ratio) and the surface roughness of calcium phosphate layers.

KW - Anticorrosion properties

KW - Elasto-plastic properties

KW - Hydroxyapatite

KW - Implant

KW - Osteogenesis

KW - Plasma electrolytic oxidation

KW - Titanium

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