Structural and Corrosion Study of Uncoated and Zn-Cu Coated Magnesium-Based Alloy

Structural and Corrosion Study of Uncoated and Zn-Cu Coated Magnesium-Based Alloy

Zn-Cu alloy was deposited onto AZ63 substrate, and the corrosion behaviour of resulting modified electrodes was investigated in 3 wt % NaCl solution in comparison with uncoated AZ63. Electrochemical, structural, and morphological study of the coating is presented. SEM images reveal that the surface...

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Main Authors: Mehmet Yakup Hacıibrahimoğlu, Metin Bedir, Abdulcabbar Yavuz
Format: Article
Language:English
Published: MDPI AG 2016-12-01
Series:Metals
Subjects:
magnesium alloys
brass
electrodeposition
XRD
SEM
corrosion
Online Access:http://www.mdpi.com/2075-4701/6/12/322
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spelling doaj-6929ea4d734a492ab53530328ef3e76f2020-11-24T23:15:09ZengMDPI AGMetals2075-47012016-12-0161232210.3390/met6120322met6120322Structural and Corrosion Study of Uncoated and Zn-Cu Coated Magnesium-Based AlloyMehmet Yakup Hacıibrahimoğlu0Metin Bedir1Abdulcabbar Yavuz2Metallurgical and Materials Science Engineering Department, Gaziantep University, Gaziantep 27310, TurkeyDepartment of Engineering Physics, Gaziantep University, Gaziantep 27310, TurkeyMetallurgical and Materials Science Engineering Department, Gaziantep University, Gaziantep 27310, TurkeyZn-Cu alloy was deposited onto AZ63 substrate, and the corrosion behaviour of resulting modified electrodes was investigated in 3 wt % NaCl solution in comparison with uncoated AZ63. Electrochemical, structural, and morphological study of the coating is presented. SEM images reveal that the surface morphology of the films is uniformly small spherical grain distributions. The XRD patterns illustrate polycrystalline structure and the formation of peaks corresponding to hexagonal close-packed ε-phase of Zn-Cu with various crystallographic orientations. Cyclic voltammetry was used to determine the potential ranges where the various redox processes occur. Linear sweep voltammetry results illustrate that longer exposure of uncoated AZ63 in NaCl solution produces a greater corrosion potential shift because of the formation of an oxide layer that did not prevent the progression of corrosion attack. The corrosion resistivity of Zn-Cu coated AZ63 is approximately two orders of magnitude greater than that of uncoated AZ63.http://www.mdpi.com/2075-4701/6/12/322magnesium alloysbrasselectrodepositionXRDSEMcorrosion
collection DOAJ
language English
format Article
sources DOAJ
author Mehmet Yakup Hacıibrahimoğlu
Metin Bedir
Abdulcabbar Yavuz
spellingShingle Mehmet Yakup Hacıibrahimoğlu
Metin Bedir
Abdulcabbar Yavuz
Structural and Corrosion Study of Uncoated and Zn-Cu Coated Magnesium-Based Alloy
Metals
magnesium alloys
brass
electrodeposition
XRD
SEM
corrosion
author_facet Mehmet Yakup Hacıibrahimoğlu
Metin Bedir
Abdulcabbar Yavuz
author_sort Mehmet Yakup Hacıibrahimoğlu
title Structural and Corrosion Study of Uncoated and Zn-Cu Coated Magnesium-Based Alloy
title_short Structural and Corrosion Study of Uncoated and Zn-Cu Coated Magnesium-Based Alloy
title_full Structural and Corrosion Study of Uncoated and Zn-Cu Coated Magnesium-Based Alloy
title_fullStr Structural and Corrosion Study of Uncoated and Zn-Cu Coated Magnesium-Based Alloy
title_full_unstemmed Structural and Corrosion Study of Uncoated and Zn-Cu Coated Magnesium-Based Alloy
title_sort structural and corrosion study of uncoated and zn-cu coated magnesium-based alloy
publisher MDPI AG
series Metals
issn 2075-4701
publishDate 2016-12-01
description Zn-Cu alloy was deposited onto AZ63 substrate, and the corrosion behaviour of resulting modified electrodes was investigated in 3 wt % NaCl solution in comparison with uncoated AZ63. Electrochemical, structural, and morphological study of the coating is presented. SEM images reveal that the surface morphology of the films is uniformly small spherical grain distributions. The XRD patterns illustrate polycrystalline structure and the formation of peaks corresponding to hexagonal close-packed ε-phase of Zn-Cu with various crystallographic orientations. Cyclic voltammetry was used to determine the potential ranges where the various redox processes occur. Linear sweep voltammetry results illustrate that longer exposure of uncoated AZ63 in NaCl solution produces a greater corrosion potential shift because of the formation of an oxide layer that did not prevent the progression of corrosion attack. The corrosion resistivity of Zn-Cu coated AZ63 is approximately two orders of magnitude greater than that of uncoated AZ63.
topic magnesium alloys
brass
electrodeposition
XRD
SEM
corrosion
url http://www.mdpi.com/2075-4701/6/12/322
work_keys_str_mv AT mehmetyakuphacıibrahimoglu structuralandcorrosionstudyofuncoatedandzncucoatedmagnesiumbasedalloy
AT metinbedir structuralandcorrosionstudyofuncoatedandzncucoatedmagnesiumbasedalloy
AT abdulcabbaryavuz structuralandcorrosionstudyofuncoatedandzncucoatedmagnesiumbasedalloy
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