FIB-SEM investigation of trapped intermetallic particles in anodic oxide films on AA1050 aluminium
Purpose: The purpose of this investigation is to understand the structure of trapped intermetallics particles and localized composition changes in the anodized anodic oxide film on AA1050 aluminium substrates. Design/methodology/approach: The morphology and composition of Fe-containing intermetallic...
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th-mahidol.116792018-05-03T15:19:02Z FIB-SEM investigation of trapped intermetallic particles in anodic oxide films on AA1050 aluminium M. Jariyaboon P. Møller R. E. Dunin-Borkowski R. Ambat Danmarks Tekniske Universitet Mahidol University Chemical Engineering Materials Science Purpose: The purpose of this investigation is to understand the structure of trapped intermetallics particles and localized composition changes in the anodized anodic oxide film on AA1050 aluminium substrates. Design/methodology/approach: The morphology and composition of Fe-containing intermetallic particles incorporated into the anodic oxide films on industrially pure aluminium (AA1050, 99.5 per cent) has been investigated. AA1050 aluminium was anodized in a 100 ml/l sulphuric acid bath with an applied voltage of 14 V at 20°C ±2°C for 10 or 120 min. The anodic film subsequently was analyzed using focused ion beam-scanning electron microscopy (FIB-SEM), SEM, and EDX. Findings: The intermetallic particles in the substrate material consisted of Fe or both Fe and Si with two different structures: irregular and round shaped. FIB-SEM cross-sectioned images revealed that the irregular-shaped particles were embedded in the anodic oxide film as a thin strip structure and located near the top surface of the film, whereas the round-shaped particles were trapped in the film with a spherical structure, but partially dissolved and were located throughout the thickness of the anodic film. The Fe/Si ratio of the intermetallic particles decreased after anodizing. Originality/value: This paper shows that dual beam FIB-SEM seems to be an easy, less time consuming and useful method to characterize the cross-sectioned intermetallic particles incorporated in anodic film on aluminium. © Emerald Group Publishing Limited. 2018-05-03T08:06:01Z 2018-05-03T08:06:01Z 2011-06-01 Article Anti-Corrosion Methods and Materials. Vol.58, No.4 (2011), 173-178 10.1108/00035591111148885 00035599 2-s2.0-79960044737 https://repository.li.mahidol.ac.th/handle/123456789/11679 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=79960044737&origin=inward |
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Chemical Engineering Materials Science M. Jariyaboon P. Møller R. E. Dunin-Borkowski R. Ambat FIB-SEM investigation of trapped intermetallic particles in anodic oxide films on AA1050 aluminium |
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Purpose: The purpose of this investigation is to understand the structure of trapped intermetallics particles and localized composition changes in the anodized anodic oxide film on AA1050 aluminium substrates. Design/methodology/approach: The morphology and composition of Fe-containing intermetallic particles incorporated into the anodic oxide films on industrially pure aluminium (AA1050, 99.5 per cent) has been investigated. AA1050 aluminium was anodized in a 100 ml/l sulphuric acid bath with an applied voltage of 14 V at 20°C ±2°C for 10 or 120 min. The anodic film subsequently was analyzed using focused ion beam-scanning electron microscopy (FIB-SEM), SEM, and EDX. Findings: The intermetallic particles in the substrate material consisted of Fe or both Fe and Si with two different structures: irregular and round shaped. FIB-SEM cross-sectioned images revealed that the irregular-shaped particles were embedded in the anodic oxide film as a thin strip structure and located near the top surface of the film, whereas the round-shaped particles were trapped in the film with a spherical structure, but partially dissolved and were located throughout the thickness of the anodic film. The Fe/Si ratio of the intermetallic particles decreased after anodizing. Originality/value: This paper shows that dual beam FIB-SEM seems to be an easy, less time consuming and useful method to characterize the cross-sectioned intermetallic particles incorporated in anodic film on aluminium. © Emerald Group Publishing Limited. |
| author2 |
Danmarks Tekniske Universitet |
| author_facet |
Danmarks Tekniske Universitet M. Jariyaboon P. Møller R. E. Dunin-Borkowski R. Ambat |
| format |
Article |
| author |
M. Jariyaboon P. Møller R. E. Dunin-Borkowski R. Ambat |
| author_sort |
M. Jariyaboon |
| title |
FIB-SEM investigation of trapped intermetallic particles in anodic oxide films on AA1050 aluminium |
| title_short |
FIB-SEM investigation of trapped intermetallic particles in anodic oxide films on AA1050 aluminium |
| title_full |
FIB-SEM investigation of trapped intermetallic particles in anodic oxide films on AA1050 aluminium |
| title_fullStr |
FIB-SEM investigation of trapped intermetallic particles in anodic oxide films on AA1050 aluminium |
| title_full_unstemmed |
FIB-SEM investigation of trapped intermetallic particles in anodic oxide films on AA1050 aluminium |
| title_sort |
fib-sem investigation of trapped intermetallic particles in anodic oxide films on aa1050 aluminium |
| publishDate |
2018 |
| url |
https://repository.li.mahidol.ac.th/handle/123456789/11679 |
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1763494894693777408 |