Effect of cryogenic cooling on corrosion of friction stir welded AA7010-T7651

Effect of cryogenic cooling on corrosion of friction stir welded AA7010-T7651

Purpose: The purpose of this paper is to study how cryogenic CO2cooling during the welding process affects corrosion behaviour of friction stir welding (FSW) AA7010-T7651. Design/methodology/approach: Friction stir welded AA7010-T7651 was produced with a rotation speed of 288 rpm and a travel speed...

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Main Authors: M. Jariyaboon, A. J. Davenport, R. Ambat, B. J. Connolly, S. W. Williams, D. A. Price
Other Authors: University of Birmingham
Format: Article
Published: 2018
Subjects:
Chemical Engineering
Materials Science
Online Access:https://repository.li.mahidol.ac.th/handle/123456789/28903
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spelling th-mahidol.289032018-09-24T16:10:55Z Effect of cryogenic cooling on corrosion of friction stir welded AA7010-T7651 M. Jariyaboon A. J. Davenport R. Ambat B. J. Connolly S. W. Williams D. A. Price University of Birmingham Mahidol University Danmarks Tekniske Universitet BAE Systems plc Cranfield University Chemical Engineering Materials Science Purpose: The purpose of this paper is to study how cryogenic CO2cooling during the welding process affects corrosion behaviour of friction stir welding (FSW) AA7010-T7651. Design/methodology/approach: Friction stir welded AA7010-T7651 was produced with a rotation speed of 288 rpm and a travel speed of 58 mm/min. The liquid CO2was sprayed onto the weld centre line immediately after the toolpiece. The microstructures of welds in different regions were observed using Field Emission Gun Scanning Electron Microscope (FEG-SEM). The effect on the corrosion susceptibility was investigated using a gel visualisation test and potentiodynamic polarisation measurements using a micro-electrochemical technique. Findings: The main corrosion region for both FSWs AA7010-T7651 produced with and without cryogenic CO2cooling is in the HAZ region, which exhibited intergranular attack. Cryogenic cooling does not show any influence on anodic reactivity of the weld region (both nugget and HAZ) compared to uncooled weld metal. However, the width of the reactive HAZ is reduced after cooling, as compared to the uncooled weld. The cooled welds show higher cathodic reactivity in the nugget region than does the nugget region of uncooled welds. Originality/value: There has been no previous work to investigate the effect of cryogenic CO2cooling on the corrosion behaviour of FSW AA7010-T7651. The paper relates the microstructures of both uncooled and cooled welds to their anodic and cathodic reactivities using a micro-electrochemical technique. © Emerald Group Publishing Limited. 2018-09-24T08:51:54Z 2018-09-24T08:51:54Z 2010-03-12 Article Anti-Corrosion Methods and Materials. Vol.57, No.2 (2010), 83-89 10.1108/00035591011028050 00035599 2-s2.0-77749317231 https://repository.li.mahidol.ac.th/handle/123456789/28903 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=77749317231&origin=inward
institution Mahidol University
building Mahidol University Library
continent Asia
country Thailand
Thailand
content_provider Mahidol University Library
collection Mahidol University Institutional Repository
topic Chemical Engineering
Materials Science
spellingShingle Chemical Engineering
Materials Science
M. Jariyaboon
A. J. Davenport
R. Ambat
B. J. Connolly
S. W. Williams
D. A. Price
Effect of cryogenic cooling on corrosion of friction stir welded AA7010-T7651
description Purpose: The purpose of this paper is to study how cryogenic CO2cooling during the welding process affects corrosion behaviour of friction stir welding (FSW) AA7010-T7651. Design/methodology/approach: Friction stir welded AA7010-T7651 was produced with a rotation speed of 288 rpm and a travel speed of 58 mm/min. The liquid CO2was sprayed onto the weld centre line immediately after the toolpiece. The microstructures of welds in different regions were observed using Field Emission Gun Scanning Electron Microscope (FEG-SEM). The effect on the corrosion susceptibility was investigated using a gel visualisation test and potentiodynamic polarisation measurements using a micro-electrochemical technique. Findings: The main corrosion region for both FSWs AA7010-T7651 produced with and without cryogenic CO2cooling is in the HAZ region, which exhibited intergranular attack. Cryogenic cooling does not show any influence on anodic reactivity of the weld region (both nugget and HAZ) compared to uncooled weld metal. However, the width of the reactive HAZ is reduced after cooling, as compared to the uncooled weld. The cooled welds show higher cathodic reactivity in the nugget region than does the nugget region of uncooled welds. Originality/value: There has been no previous work to investigate the effect of cryogenic CO2cooling on the corrosion behaviour of FSW AA7010-T7651. The paper relates the microstructures of both uncooled and cooled welds to their anodic and cathodic reactivities using a micro-electrochemical technique. © Emerald Group Publishing Limited.
author2 University of Birmingham
author_facet University of Birmingham
M. Jariyaboon
A. J. Davenport
R. Ambat
B. J. Connolly
S. W. Williams
D. A. Price
format Article
author M. Jariyaboon
A. J. Davenport
R. Ambat
B. J. Connolly
S. W. Williams
D. A. Price
author_sort M. Jariyaboon
title Effect of cryogenic cooling on corrosion of friction stir welded AA7010-T7651
title_short Effect of cryogenic cooling on corrosion of friction stir welded AA7010-T7651
title_full Effect of cryogenic cooling on corrosion of friction stir welded AA7010-T7651
title_fullStr Effect of cryogenic cooling on corrosion of friction stir welded AA7010-T7651
title_full_unstemmed Effect of cryogenic cooling on corrosion of friction stir welded AA7010-T7651
title_sort effect of cryogenic cooling on corrosion of friction stir welded aa7010-t7651
publishDate 2018
url https://repository.li.mahidol.ac.th/handle/123456789/28903
_version_ 1763497619269615616

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