Influences of pH Values’ Changes on the Oxide Film of U-0.79 wt.% Ti Alloy in Aqueous Solution—A Combined Study of Traditional Electrochemical Tests and Scanning Reference Electrode Technique

By combining traditional electrochemical tests including Tafel extension method and Mott-Schottky fitting, spectroscopic ellipsometry (SE) and a micro-region analysis technique, which is an integrated system of a scanning reference electrode technique and scanning tunneling microscope (SRET/STM), th...

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Main Authors: Dingzhou Cai, Dongxu Zhang, Xianglin Chen, Haoxi Wu, Ming Wang, Ge Sang, Yingru Li
Format: Article
Language:English
Published: MDPI AG 2019-03-01
Series:Coatings
Subjects:
Online Access:https://www.mdpi.com/2079-6412/9/4/224
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spelling doaj-f5a55e645619429db4c9f53342fbb43b2020-11-25T00:52:24ZengMDPI AGCoatings2079-64122019-03-019422410.3390/coatings9040224coatings9040224Influences of pH Values’ Changes on the Oxide Film of U-0.79 wt.% Ti Alloy in Aqueous Solution—A Combined Study of Traditional Electrochemical Tests and Scanning Reference Electrode TechniqueDingzhou Cai0Dongxu Zhang1Xianglin Chen2Haoxi Wu3Ming Wang4Ge Sang5Yingru Li6Institute of Materials, China Academy of Engineering Physics, Jiangyou, Mianyang 621907, ChinaInstitute of Materials, China Academy of Engineering Physics, Jiangyou, Mianyang 621907, ChinaInstitute of Materials, China Academy of Engineering Physics, Jiangyou, Mianyang 621907, ChinaInstitute of Materials, China Academy of Engineering Physics, Jiangyou, Mianyang 621907, ChinaInstitute of Materials, China Academy of Engineering Physics, Jiangyou, Mianyang 621907, ChinaInstitute of Materials, China Academy of Engineering Physics, Jiangyou, Mianyang 621907, ChinaInstitute of Materials, China Academy of Engineering Physics, Jiangyou, Mianyang 621907, ChinaBy combining traditional electrochemical tests including Tafel extension method and Mott-Schottky fitting, spectroscopic ellipsometry (SE) and a micro-region analysis technique, which is an integrated system of a scanning reference electrode technique and scanning tunneling microscope (SRET/STM), the changes in properties of the oxide film that formed on the surface of the U-0.79 wt.% Ti alloy (U-Ti alloy in short) in 0.1 M NaNO<sub>3</sub> were carefully investigated as the pH value changed. The results show that the properties of the oxide film are strongly pH-dependent. The corrosion potential and corrosion current density decrease with the increasing pH value. The oxide film appears to be a p-type semiconductor at pH = 2.43. However, the transition from n-type to p-type for the oxide film as a semiconductor is observed with the increasing applied potential when the solution pH value varies from 2.43 to 7.0. The oxide film presents as an n-type semiconductor when the pH value varies from 7.0 to 11.44. In addition, during the transition of the pH, the roughness and the number of active points of the alloy surface decreases while the oxide film is thicker. It can be concluded that the corrosion resistance of the oxide film formed on the U-Ti alloy surface is enhanced in neutral or alkaline solutions.https://www.mdpi.com/2079-6412/9/4/224uranium-titanium alloycorrosionpH valueelectrochemical testsscanning reference electrode technique
collection DOAJ
language English
format Article
sources DOAJ
author Dingzhou Cai
Dongxu Zhang
Xianglin Chen
Haoxi Wu
Ming Wang
Ge Sang
Yingru Li
spellingShingle Dingzhou Cai
Dongxu Zhang
Xianglin Chen
Haoxi Wu
Ming Wang
Ge Sang
Yingru Li
Influences of pH Values’ Changes on the Oxide Film of U-0.79 wt.% Ti Alloy in Aqueous Solution—A Combined Study of Traditional Electrochemical Tests and Scanning Reference Electrode Technique
Coatings
uranium-titanium alloy
corrosion
pH value
electrochemical tests
scanning reference electrode technique
author_facet Dingzhou Cai
Dongxu Zhang
Xianglin Chen
Haoxi Wu
Ming Wang
Ge Sang
Yingru Li
author_sort Dingzhou Cai
title Influences of pH Values’ Changes on the Oxide Film of U-0.79 wt.% Ti Alloy in Aqueous Solution—A Combined Study of Traditional Electrochemical Tests and Scanning Reference Electrode Technique
title_short Influences of pH Values’ Changes on the Oxide Film of U-0.79 wt.% Ti Alloy in Aqueous Solution—A Combined Study of Traditional Electrochemical Tests and Scanning Reference Electrode Technique
title_full Influences of pH Values’ Changes on the Oxide Film of U-0.79 wt.% Ti Alloy in Aqueous Solution—A Combined Study of Traditional Electrochemical Tests and Scanning Reference Electrode Technique
title_fullStr Influences of pH Values’ Changes on the Oxide Film of U-0.79 wt.% Ti Alloy in Aqueous Solution—A Combined Study of Traditional Electrochemical Tests and Scanning Reference Electrode Technique
title_full_unstemmed Influences of pH Values’ Changes on the Oxide Film of U-0.79 wt.% Ti Alloy in Aqueous Solution—A Combined Study of Traditional Electrochemical Tests and Scanning Reference Electrode Technique
title_sort influences of ph values’ changes on the oxide film of u-0.79 wt.% ti alloy in aqueous solution—a combined study of traditional electrochemical tests and scanning reference electrode technique
publisher MDPI AG
series Coatings
issn 2079-6412
publishDate 2019-03-01
description By combining traditional electrochemical tests including Tafel extension method and Mott-Schottky fitting, spectroscopic ellipsometry (SE) and a micro-region analysis technique, which is an integrated system of a scanning reference electrode technique and scanning tunneling microscope (SRET/STM), the changes in properties of the oxide film that formed on the surface of the U-0.79 wt.% Ti alloy (U-Ti alloy in short) in 0.1 M NaNO<sub>3</sub> were carefully investigated as the pH value changed. The results show that the properties of the oxide film are strongly pH-dependent. The corrosion potential and corrosion current density decrease with the increasing pH value. The oxide film appears to be a p-type semiconductor at pH = 2.43. However, the transition from n-type to p-type for the oxide film as a semiconductor is observed with the increasing applied potential when the solution pH value varies from 2.43 to 7.0. The oxide film presents as an n-type semiconductor when the pH value varies from 7.0 to 11.44. In addition, during the transition of the pH, the roughness and the number of active points of the alloy surface decreases while the oxide film is thicker. It can be concluded that the corrosion resistance of the oxide film formed on the U-Ti alloy surface is enhanced in neutral or alkaline solutions.
topic uranium-titanium alloy
corrosion
pH value
electrochemical tests
scanning reference electrode technique
url https://www.mdpi.com/2079-6412/9/4/224
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