Characterization of anodic oxide growth on commercially pure titanium in NaTESi electrolyte

Z. Liu; H. Liu; X. Zhong; T. Hashimoto; G. E. Thompson; P. Skeldon

doi:10.1016/j.surfcoat.2014.07.036

Characterization of anodic oxide growth on commercially pure titanium in NaTESi electrolyte

Z. Liu, H. Liu, X. Zhong, T. Hashimoto, G. E. Thompson, P. Skeldon

Materials - Administration

Research output: Contribution to journal › Article › peer-review

Abstract

The present study examines the formation of anodic oxide films on commercially pure titanium in NaTESi electrolyte at a constant current density of 20 mA cm−2. The barrier-type titanium oxide films of ~30, 37 and 67 nm thick are formed when anodized to 5, 10 and 20 V. However, a porous film of approximately 80.0 nm thick is developed after anodizing to 40 V. Significant sodiumspecieswere found throughout the oxides and the concentration increases with the increase of anodic voltage. The growth efficiency is reduced by increasing the anodic voltage, due to formation of crystalline phase in the oxide,which induces oxygen generation. The degree of crystallinity of the anodic oxide film formed on titanium is increased associated with the increase of the anodic voltage. The dielectric permittivity of the anodic oxide film is estimated as 2.35 based on the oxide thickness measured when anodized to 10 V.

Original language	English
Pages (from-to)	1025-1031
Number of pages	6
Journal	Surface and Coatings Technology
Volume	258
DOIs	https://doi.org/10.1016/j.surfcoat.2014.07.036
Publication status	Published - 23 Jul 2014

Keywords

Anodic oxide film
Anodizing
NaTESi electrolyte
Oxygen evolution
Titanium

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10.1016/j.surfcoat.2014.07.036

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@article{1dea1ce27ee74591a4967c0b433c0e42,

title = "Characterization of anodic oxide growth on commercially pure titanium in NaTESi electrolyte",

abstract = "The present study examines the formation of anodic oxide films on commercially pure titanium in NaTESi electrolyte at a constant current density of 20 mA cm−2. The barrier-type titanium oxide films of ~30, 37 and 67 nm thick are formed when anodized to 5, 10 and 20 V. However, a porous film of approximately 80.0 nm thick is developed after anodizing to 40 V. Significant sodiumspecieswere found throughout the oxides and the concentration increases with the increase of anodic voltage. The growth efficiency is reduced by increasing the anodic voltage, due to formation of crystalline phase in the oxide,which induces oxygen generation. The degree of crystallinity of the anodic oxide film formed on titanium is increased associated with the increase of the anodic voltage. The dielectric permittivity of the anodic oxide film is estimated as 2.35 based on the oxide thickness measured when anodized to 10 V.",

keywords = "Anodic oxide film, Anodizing, NaTESi electrolyte, Oxygen evolution, Titanium",

author = "Z. Liu and H. Liu and X. Zhong and T. Hashimoto and Thompson, {G. E.} and P. Skeldon",

note = "The present work was financially supported by EPSRC through the LATEST2 Programme Grant.",

year = "2014",

month = jul,

day = "23",

doi = "10.1016/j.surfcoat.2014.07.036",

language = "English",

volume = "258",

pages = "1025--1031",

journal = "Surface and Coatings Technology",

publisher = "Elsevier BV",

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TY - JOUR

T1 - Characterization of anodic oxide growth on commercially pure titanium in NaTESi electrolyte

AU - Liu, Z.

AU - Liu, H.

AU - Zhong, X.

AU - Hashimoto, T.

AU - Thompson, G. E.

AU - Skeldon, P.

N1 - The present work was financially supported by EPSRC through the LATEST2 Programme Grant.

PY - 2014/7/23

Y1 - 2014/7/23

N2 - The present study examines the formation of anodic oxide films on commercially pure titanium in NaTESi electrolyte at a constant current density of 20 mA cm−2. The barrier-type titanium oxide films of ~30, 37 and 67 nm thick are formed when anodized to 5, 10 and 20 V. However, a porous film of approximately 80.0 nm thick is developed after anodizing to 40 V. Significant sodiumspecieswere found throughout the oxides and the concentration increases with the increase of anodic voltage. The growth efficiency is reduced by increasing the anodic voltage, due to formation of crystalline phase in the oxide,which induces oxygen generation. The degree of crystallinity of the anodic oxide film formed on titanium is increased associated with the increase of the anodic voltage. The dielectric permittivity of the anodic oxide film is estimated as 2.35 based on the oxide thickness measured when anodized to 10 V.

AB - The present study examines the formation of anodic oxide films on commercially pure titanium in NaTESi electrolyte at a constant current density of 20 mA cm−2. The barrier-type titanium oxide films of ~30, 37 and 67 nm thick are formed when anodized to 5, 10 and 20 V. However, a porous film of approximately 80.0 nm thick is developed after anodizing to 40 V. Significant sodiumspecieswere found throughout the oxides and the concentration increases with the increase of anodic voltage. The growth efficiency is reduced by increasing the anodic voltage, due to formation of crystalline phase in the oxide,which induces oxygen generation. The degree of crystallinity of the anodic oxide film formed on titanium is increased associated with the increase of the anodic voltage. The dielectric permittivity of the anodic oxide film is estimated as 2.35 based on the oxide thickness measured when anodized to 10 V.

KW - Anodic oxide film

KW - Anodizing

KW - NaTESi electrolyte

KW - Oxygen evolution

KW - Titanium

U2 - 10.1016/j.surfcoat.2014.07.036

DO - 10.1016/j.surfcoat.2014.07.036

M3 - Article

VL - 258

SP - 1025

EP - 1031

JO - Surface and Coatings Technology

JF - Surface and Coatings Technology

ER -

Characterization of anodic oxide growth on commercially pure titanium in NaTESi electrolyte

Abstract

Keywords

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