The effect of residual solvent in carbon−based filler reinforced polymer coating on the curing properties, mechanical and corrosive behaviour

The effect of residual solvent in carbon−based filler reinforced polymer coating on the curing properties, mechanical and corrosive behaviour

Solution mixing, which is one of the standard methods of producing Graphene−based Nanocomposites (GPC) may not be as efficient as it is expected due to the presence of residual solvent in the cured product. Therefore, the influence of including acetone in the preparation of Graphene Oxide−based epox...

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Main Authors: Othman, Nurul Husna, Mustapha, Mazli, Sallih, Nabihah, Ahmad, Azlan, Mustapha, Faizal, Che Ismail, Mokhtar
Format: Article
Published: Multidisciplinary Digital Publishing Institute 2022
Online Access:http://psasir.upm.edu.my/id/eprint/103521/
https://www.mdpi.com/1996-1944/15/10/3445
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Institution: Universiti Putra Malaysia
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spelling my.upm.eprints.1035212023-05-26T03:38:40Z http://psasir.upm.edu.my/id/eprint/103521/ The effect of residual solvent in carbon−based filler reinforced polymer coating on the curing properties, mechanical and corrosive behaviour Othman, Nurul Husna Mustapha, Mazli Sallih, Nabihah Ahmad, Azlan Mustapha, Faizal Che Ismail, Mokhtar Solution mixing, which is one of the standard methods of producing Graphene−based Nanocomposites (GPC) may not be as efficient as it is expected due to the presence of residual solvent in the cured product. Therefore, the influence of including acetone in the preparation of Graphene Oxide−based epoxy coating (GO−EP) on the curing behaviour, mechanical and corrosive behaviour was studied. FTIR and TGA analysis confirmed that the GO−EP prepared by ultrasonication (GO−EP U) indicated the presence of more low−molecular−weight/low crosslinked (LMW/LC) sites than GO−EP prepared by stirring (GO−EP MS). Meanwhile, the tensile strength and hardness of GO−EP MS was 20% and 10% better than GO−EP U which confirmed that the presence of a lower number of LMW/LC could prevail over the agglomeration of GO sheets in the GO−EP MS. Pull−off adhesion tests also confirms that the presence of remaining acetone would cause the poor bonding between metal and coating in GO−EP U. This is reflected on the electrochemical impedance spectroscopy (EIS) results, where the GO−EP U failed to provide substantial barrier protection for carbon steel after 140 days of immersion in 3.5 wt% NaCl. Therefore, it is essential to consider the solvent effect when solvent is used in the preparation of a coating to prevent the premature failure of high−performance polymer coatings. Multidisciplinary Digital Publishing Institute 2022 Article PeerReviewed Othman, Nurul Husna and Mustapha, Mazli and Sallih, Nabihah and Ahmad, Azlan and Mustapha, Faizal and Che Ismail, Mokhtar (2022) The effect of residual solvent in carbon−based filler reinforced polymer coating on the curing properties, mechanical and corrosive behaviour. Materials, 15 (10). art. no. 3445. pp. 1-15. ISSN 1996-1944 https://www.mdpi.com/1996-1944/15/10/3445 10.3390/ma15103445
institution Universiti Putra Malaysia
building UPM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Putra Malaysia
content_source UPM Institutional Repository
url_provider http://psasir.upm.edu.my/
description Solution mixing, which is one of the standard methods of producing Graphene−based Nanocomposites (GPC) may not be as efficient as it is expected due to the presence of residual solvent in the cured product. Therefore, the influence of including acetone in the preparation of Graphene Oxide−based epoxy coating (GO−EP) on the curing behaviour, mechanical and corrosive behaviour was studied. FTIR and TGA analysis confirmed that the GO−EP prepared by ultrasonication (GO−EP U) indicated the presence of more low−molecular−weight/low crosslinked (LMW/LC) sites than GO−EP prepared by stirring (GO−EP MS). Meanwhile, the tensile strength and hardness of GO−EP MS was 20% and 10% better than GO−EP U which confirmed that the presence of a lower number of LMW/LC could prevail over the agglomeration of GO sheets in the GO−EP MS. Pull−off adhesion tests also confirms that the presence of remaining acetone would cause the poor bonding between metal and coating in GO−EP U. This is reflected on the electrochemical impedance spectroscopy (EIS) results, where the GO−EP U failed to provide substantial barrier protection for carbon steel after 140 days of immersion in 3.5 wt% NaCl. Therefore, it is essential to consider the solvent effect when solvent is used in the preparation of a coating to prevent the premature failure of high−performance polymer coatings.
format Article
author Othman, Nurul Husna
Mustapha, Mazli
Sallih, Nabihah
Ahmad, Azlan
Mustapha, Faizal
Che Ismail, Mokhtar
spellingShingle Othman, Nurul Husna
Mustapha, Mazli
Sallih, Nabihah
Ahmad, Azlan
Mustapha, Faizal
Che Ismail, Mokhtar
The effect of residual solvent in carbon−based filler reinforced polymer coating on the curing properties, mechanical and corrosive behaviour
author_facet Othman, Nurul Husna
Mustapha, Mazli
Sallih, Nabihah
Ahmad, Azlan
Mustapha, Faizal
Che Ismail, Mokhtar
author_sort Othman, Nurul Husna
title The effect of residual solvent in carbon−based filler reinforced polymer coating on the curing properties, mechanical and corrosive behaviour
title_short The effect of residual solvent in carbon−based filler reinforced polymer coating on the curing properties, mechanical and corrosive behaviour
title_full The effect of residual solvent in carbon−based filler reinforced polymer coating on the curing properties, mechanical and corrosive behaviour
title_fullStr The effect of residual solvent in carbon−based filler reinforced polymer coating on the curing properties, mechanical and corrosive behaviour
title_full_unstemmed The effect of residual solvent in carbon−based filler reinforced polymer coating on the curing properties, mechanical and corrosive behaviour
title_sort effect of residual solvent in carbon−based filler reinforced polymer coating on the curing properties, mechanical and corrosive behaviour
publisher Multidisciplinary Digital Publishing Institute
publishDate 2022
url http://psasir.upm.edu.my/id/eprint/103521/
https://www.mdpi.com/1996-1944/15/10/3445
_version_ 1768009466605731840

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