Journal article 1371 views 274 downloads
The kinetics and mechanism of filiform corrosion occurring on zinc-aluminium-magnesium coated steel
Natalie Wint,
D. Eaves,
E. Michailidou,
A. Bennett,
Justin Searle 
,
Geraint Williams ,
Hamilton McMurray
,
Geraint Williams ,
Hamilton McMurray
Corrosion Science, Volume: 158
Swansea University Authors:
Natalie Wint, Justin Searle , Geraint Williams , Hamilton McMurray
-
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DOI (Published version): 10.1016/j.corsci.2019.06.028
Abstract
This paper describes a systematic study into the initiation and propagation of filiform corrosion (FFC) on industrially important Zinc-Aluminium-Magnesium (ZAM) alloy coatings for steels. An artificial scribe defect is created in model organic coatings applied to ZAM. Corrosion is initiated using HC...
| Published in: | Corrosion Science |
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| ISSN: | 0010-938X |
| Published: |
2019
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| URI: | https://cronfa.swan.ac.uk/Record/cronfa50974 |
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2019-07-01T14:57:18Z |
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2021-01-15T10:36:46.3974233 v2 50974 2019-07-01 The kinetics and mechanism of filiform corrosion occurring on zinc-aluminium-magnesium coated steel 5be5dcc4b97c78b3063e258add4fff5c Natalie Wint Natalie Wint true false 0e3f2c3812f181eaed11c45554d4cdd0 0000-0003-1101-075X Justin Searle Justin Searle true false 0d8fc8d44e2a3c88ce61832f66f20d82 0000-0002-3399-5142 Geraint Williams Geraint Williams true false 56fc1b17ffc3bdf6039dc05c6eba7f2a Hamilton McMurray Hamilton McMurray true false 2019-07-01 FGSEN This paper describes a systematic study into the initiation and propagation of filiform corrosion (FFC) on industrially important Zinc-Aluminium-Magnesium (ZAM) alloy coatings for steels. An artificial scribe defect is created in model organic coatings applied to ZAM. Corrosion is initiated using HCl, NaCl, FeCl2 and acetic acid. Only acetic acid is able to reproducibly initiate FFC. The FFC (area) rate is shown to be proportional to the amount of acetic acid introduced. The FFC mechanism is explained in terms of the relative susceptibility of alloy phases to anodic dissolution, determined using scanning electron microscopy and scanning Kelvin probe force microscopy. Journal Article Corrosion Science 158 0010-938X A Steel, A Magnesium, A Metal Coatings, C Atmospheric, Corrosion C Polymer Coatings 1 9 2019 2019-09-01 10.1016/j.corsci.2019.06.028 COLLEGE NANME Science and Engineering - Faculty COLLEGE CODE FGSEN Swansea University 2021-01-15T10:36:46.3974233 2019-07-01T10:32:40.0122697 Faculty of Science and Engineering School of Engineering and Applied Sciences - Materials Science and Engineering Natalie Wint 1 D. Eaves 2 E. Michailidou 3 A. Bennett 4 Justin Searle 0000-0003-1101-075X 5 Geraint Williams 0000-0002-3399-5142 6 Hamilton McMurray 7 0050974-15082019132759.pdf 50974.pdf 2019-08-15T13:27:59.2800000 Output 7300445 application/pdf Version of Record true Released under the terms of a Creative Commons Attribution License (CC-BY). true eng http://creativecommons.org/licenses/BY/4.0/ |
| title |
The kinetics and mechanism of filiform corrosion occurring on zinc-aluminium-magnesium coated steel |
| spellingShingle |
The kinetics and mechanism of filiform corrosion occurring on zinc-aluminium-magnesium coated steel Natalie Wint Justin Searle Geraint Williams Hamilton McMurray |
| title_short |
The kinetics and mechanism of filiform corrosion occurring on zinc-aluminium-magnesium coated steel |
| title_full |
The kinetics and mechanism of filiform corrosion occurring on zinc-aluminium-magnesium coated steel |
| title_fullStr |
The kinetics and mechanism of filiform corrosion occurring on zinc-aluminium-magnesium coated steel |
| title_full_unstemmed |
The kinetics and mechanism of filiform corrosion occurring on zinc-aluminium-magnesium coated steel |
| title_sort |
The kinetics and mechanism of filiform corrosion occurring on zinc-aluminium-magnesium coated steel |
| author_id_str_mv |
5be5dcc4b97c78b3063e258add4fff5c 0e3f2c3812f181eaed11c45554d4cdd0 0d8fc8d44e2a3c88ce61832f66f20d82 56fc1b17ffc3bdf6039dc05c6eba7f2a |
| author_id_fullname_str_mv |
5be5dcc4b97c78b3063e258add4fff5c_***_Natalie Wint 0e3f2c3812f181eaed11c45554d4cdd0_***_Justin Searle 0d8fc8d44e2a3c88ce61832f66f20d82_***_Geraint Williams 56fc1b17ffc3bdf6039dc05c6eba7f2a_***_Hamilton McMurray |
| author |
Natalie Wint Justin Searle Geraint Williams Hamilton McMurray |
| author2 |
Natalie Wint D. Eaves E. Michailidou A. Bennett Justin Searle Geraint Williams Hamilton McMurray |
| format |
Journal article |
| container_title |
Corrosion Science |
| container_volume |
158 |
| publishDate |
2019 |
| institution |
Swansea University |
| issn |
0010-938X |
| doi_str_mv |
10.1016/j.corsci.2019.06.028 |
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Faculty of Science and Engineering |
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Faculty of Science and Engineering |
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facultyofscienceandengineering |
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Faculty of Science and Engineering |
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School of Engineering and Applied Sciences - Materials Science and Engineering{{{_:::_}}}Faculty of Science and Engineering{{{_:::_}}}School of Engineering and Applied Sciences - Materials Science and Engineering |
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| description |
This paper describes a systematic study into the initiation and propagation of filiform corrosion (FFC) on industrially important Zinc-Aluminium-Magnesium (ZAM) alloy coatings for steels. An artificial scribe defect is created in model organic coatings applied to ZAM. Corrosion is initiated using HCl, NaCl, FeCl2 and acetic acid. Only acetic acid is able to reproducibly initiate FFC. The FFC (area) rate is shown to be proportional to the amount of acetic acid introduced. The FFC mechanism is explained in terms of the relative susceptibility of alloy phases to anodic dissolution, determined using scanning electron microscopy and scanning Kelvin probe force microscopy. |
| published_date |
2019-09-01T04:02:42Z |
| _version_ |
1763753236559298560 |
| score |
11.037603 |