Replacement of traditional seawater-soluble pigments by starch and hydrolytic enzymes in polishing antifouling coatings

The use of starch and hydrolytic enzymes as replacement for traditional polishing pigments (e.g., Cu 2 O and ZnO) in antifouling coatings has been investigated. The enzymes facilitate a slow conversion of water-insoluble starch into water-soluble glucose, and dissolution of glucose causes the develo...

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Bibliographic Details
Published in:Journal of Coatings Technology and Research 2010-05, Vol.7 (3), p.355-363
Main Authors: Olsen, S. M., Pedersen, L. T., Dam-Johansen, K., Kristensen, J. B., Kiil, S.
Format: Article
Language:English
Subjects:
Applied sciences
Chemistry and Materials Science
Coatings
Coatings industry
Coatings. Paints, varnishes and inks
Corrosion and Coatings
Dextrose
Exact sciences and technology
Film formation and curing, properties, testing
Glucose
Industrial Chemistry/Chemical Engineering
Materials Science
Pigments industry
Polymer industry, paints, wood
Polymer Sciences
Surfaces and Interfaces
Thin Films
Tribology
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Summary:The use of starch and hydrolytic enzymes as replacement for traditional polishing pigments (e.g., Cu 2 O and ZnO) in antifouling coatings has been investigated. The enzymes facilitate a slow conversion of water-insoluble starch into water-soluble glucose, and dissolution of glucose causes the development of a leached (porous) layer in the wetted, outermost part of the coating. Subsequent water–binder interaction at the pore walls gives rise to polishing, in a manner similar to that of conventional antifouling coatings. Different starch types have been evaluated and classified as potential coating ingredients, and the impact of the addition of starch on the functional properties of the coating is described. Starches from rice, corn, and tapioca have been tested, and due to a smaller amount of water-soluble content and lesser tendency to agglomerate, corn starch is preferred. Leaching occurs in all the starch-enzyme coatings tested; however, polishing is only detected for two out of four binder systems investigated. Suitable polishing rates of 7–10 μm/month, based on the enzymatic starch-degradation, have been measured. Controls containing only starch (no enzyme) did not polish.
ISSN:1547-0091
1945-9645
1935-3804
DOI:10.1007/s11998-009-9191-3