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Estimation of organic biocide leaching rate using a modified cavity jump diffusion model

Estimation of organic biocide leaching rate using a modified cavity jump diffusion model
Estimation of organic biocide leaching rate using a modified cavity jump diffusion model
Estimation of biocide lifetime in marine antifouling coatings is of great use to improve and develop technologies. An existing model simulating the diffusion of molecules in polymer networks below glass transition temperature was employed to estimate leaching. This model was modified to allow for swelling due to water uptake and to permit evaluation of copolymer binders as well as homopolymers. This enabled prediction of biocide diffusion coefficients in polymeric coatings of various binder types, including pMMA, a pMMA/butylacrylate binder containing rosin, and a trityl copolymer, using usnic acid as a ‘model’ biocide. For comparison with modelling results, coatings fomulated using each binder type were also submitted to static and dynamic seawater immersion. Fluorescence microscopy techniques were used to quantify biocide leaching from these coatings relative to unimmersed coatings. Agreement of the modified diffusion model with experimental data was good for pMMA, reasonable for the rosin-based binder, and poor for the trityl binder. Comparison of predicted and experimental biocide profiles in the binder demonstrated deviation from the expected Fickian mechanism for the pMMA binder, despite the accurate rate prediction. This work demonstrates a first approach to predicting organic biocide diffusion, and highlights the areas for future attention.
leaching, diffusion, coatings, modelling, biocide, antifouling
0300-9440
1499-1505
Goodes, L.R.
83fd1cdf-8fba-4089-9094-971f6460f5ef
Wharton, J.A.
965a38fd-d2bc-4a19-a08c-2d4e036aa96b
Dennington, S.P.
6a329a55-8c10-4515-8920-d8f40f302221
Stokes, K.R.
5fb4e7f7-2f7e-4e6e-a045-6d7690626695
Goodes, L.R.
83fd1cdf-8fba-4089-9094-971f6460f5ef
Wharton, J.A.
965a38fd-d2bc-4a19-a08c-2d4e036aa96b
Dennington, S.P.
6a329a55-8c10-4515-8920-d8f40f302221
Stokes, K.R.
5fb4e7f7-2f7e-4e6e-a045-6d7690626695

Goodes, L.R., Wharton, J.A., Dennington, S.P. and Stokes, K.R. (2014) Estimation of organic biocide leaching rate using a modified cavity jump diffusion model. Progress in Organic Coatings, 77 (9), 1499-1505. (doi:10.1016/j.porgcoat.2014.04.016).

Record type: Article

Abstract

Estimation of biocide lifetime in marine antifouling coatings is of great use to improve and develop technologies. An existing model simulating the diffusion of molecules in polymer networks below glass transition temperature was employed to estimate leaching. This model was modified to allow for swelling due to water uptake and to permit evaluation of copolymer binders as well as homopolymers. This enabled prediction of biocide diffusion coefficients in polymeric coatings of various binder types, including pMMA, a pMMA/butylacrylate binder containing rosin, and a trityl copolymer, using usnic acid as a ‘model’ biocide. For comparison with modelling results, coatings fomulated using each binder type were also submitted to static and dynamic seawater immersion. Fluorescence microscopy techniques were used to quantify biocide leaching from these coatings relative to unimmersed coatings. Agreement of the modified diffusion model with experimental data was good for pMMA, reasonable for the rosin-based binder, and poor for the trityl binder. Comparison of predicted and experimental biocide profiles in the binder demonstrated deviation from the expected Fickian mechanism for the pMMA binder, despite the accurate rate prediction. This work demonstrates a first approach to predicting organic biocide diffusion, and highlights the areas for future attention.

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ProgOrgCoating Manuscript LRG revisionv1.doc - Accepted Manuscript
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More information

e-pub ahead of print date: 15 May 2014
Published date: September 2014
Keywords: leaching, diffusion, coatings, modelling, biocide, antifouling
Organisations: Engineering Science Unit

Identifiers

Local EPrints ID: 367193
URI: http://eprints.soton.ac.uk/id/eprint/367193
DOI: doi:10.1016/j.porgcoat.2014.04.016
ISSN: 0300-9440
PURE UUID: 7499f606-8458-4fbf-8182-d3d60f400ab7
ORCID for J.A. Wharton: ORCID iD orcid.org/0000-0002-3439-017X

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Date deposited: 23 Jul 2014 14:20
Last modified: 15 Mar 2024 02:58

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Contributors

Author: L.R. Goodes
Author: J.A. Wharton ORCID iD
Author: S.P. Dennington
Author: K.R. Stokes

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