Tinta líquida epóxi-acrilada hidrossolúvel com ação antimicrobiana e antifúngica: Revisão do processo produtivo

Lucas Schappo Breis; Diogo Fabrício Campos; Vanderleia Botton

doi:10.33448/rsd-v14i8.49415

Authors

Lucas Schappo Breis Universidade Regional de Blumenau https://orcid.org/0009-0009-2269-0712
Diogo Fabrício Campos Universidade Regional de Blumenau https://orcid.org/0009-0002-4024-626X
Vanderleia Botton Universidade Regional de Blumenau https://orcid.org/0000-0002-7534-4217

DOI:

https://doi.org/10.33448/rsd-v14i8.49415

Keywords:

Eco-friendly paints, Water-based paints, Bactericidal additives, Fungicidal additives.

Abstract

Paints are widely used as surface coatings, both for protection against external agents and for decorative purposes. They are present in a variety of environments, from industrial platforms to dental offices. Among the different types, eco-friendly paints stand out, as they do not contain volatile organic compounds (VOCs), are generally water-based, and, in some cases, incorporate bactericidal and fungicidal agents. They are recommended for locations with high sanitary requirements, such as hospitals and food industries. This study aimed to review the production process of water-soluble eco-friendly paints with antimicrobial properties, highlighting their components, applications, and environmental impact. A literature review was conducted based on scientific articles, technical standards, and market data on sustainable paints. The results point to a growing demand for environmentally friendly products, driven by environmental legislation and increased consumer awareness. Water-soluble paints with antimicrobial additives have proven effective in controlling microorganisms while significantly reducing VOC emissions. Eco-friendly paints represent a viable and promising alternative to conventional paints, especially in applications requiring hygiene and safety, although they still face challenges regarding durability and cost.

References

ABIQUIM. (2020). A indústria química. Associação Brasileira Da Indústria Química (ABIQUIM). https://abiquim.org.br/industriaQuimica.

ABRAFATI, Associação Brasileira Dos Fabricantes De Tintas (2020). https://abrafati.com.br/

ACA. (2022) The Demand for Coatings Raw Materials to 2022. https://www.paint.org/coatingstech-magazine/articles/demand-coatings-raw-materials-to-2022/

Alonso-Villar, E. M., Rivas, T., & Pozo-Antonio, J. S. (2021) Resistance to artificial daylight of paints used in urban artworks. Influence of paint composition and substrate. Progress in Organic Coatings, 154, 106180. https://doi.org/10.1016/j.porgcoat.2021.106180.

Barrios, S. (2017) Manual descomplicado de tecnologia de tintas: um guia rápido e prático para formulação de tintas e emulsões. São Paulo: Edgard Blücher, 228 p.

Breis, L. S., Lima, & B. O., & Botton, V. (2023). Processo produtivo de tinta líquida epóxi-acrilada hidrossolúvel com propriedades bactericidas e fungicidas. In: Anais do 24° Congresso Brasileiro De Engenharia Química, 2023, Salvador. Anais eletrônicos..., Galoá, 2023. https://proceedings.science/cobeq-2023/trabalhos/processo-produtivo-de-tinta-liquida-epoxi-acrilada-hidrossoluvel-com-propriedade?lang=pt-br

Chen, H., Zhou, Z., Zheng, B., Yang, H., Chen, Y., Huang, Y., Zhang, N., Zhang, X., Xiao, M., Ye, J., & Yang,Y. (2025) Development and characterization of biodegradable water- and oil-resistant coatings based on derivatized cellulose, sodium alginate, and shellac for paper-based packaging. International Journal of Biological Macromolecules, 303, 140490. https://doi.org/10.1016/j.ijbiomac.2025.140490

Choi, M., Yu, J., Kim, H., Choi, B., Cha, B., Bang, Y. K., Kim, Y S., Lee, W., & Yoo, Y. (2025) Green water-based cooling coating engineered for durability and LCA-verified emission cuts. Journal of Building Engineering, 111, 113382. https://doi.org/10.1016/j.jobe.2025.113382

Clarke, C. J., Tu, W. C., Levers, O., Bröhl, A., & Hallett, J. P. (2018) Green and sustainable solvents in chemical processes. Chemical Reviews, 118, 747-800. https://doi.org/10.1021/acs.chemrev.7b00571

Cunningham, M. F., Campbell, J. D., Fu, Z., Bohling, J., Leroux, J. G., Mabeee, W., & Robert, T. (2019) Future green chemistry and sustainability needs in polymeric coatings. Green Chemistry, 21, 4919-4926. https://doi.org/10.1039/C9GC02462J

Das, R., Ambardekar, V., & Pratim Bandyopadhyay, P. (2022) Titanium dioxide and its applications in mechanical, electrical, optical, and biomedical fields. IntechOpen. doi: 10.5772/intechopen.98805

Dias, T. (2007) Sistemas de filtragem agregam pureza e qualidade às tintas durante o processo de fabricação. Revista Meio Filtrante, 28. https://meiofiltrante.com.br/Artigo/1433/tintas-sem-contaminacao

Duan, Y., Huo, Y., & Duan, L. (2017) Preparation of acrylic resins modified with epoxy resins and their behaviors as binders of waterborne printing ink on plastic film. Colloids and surfaces a: physicochemical and engineering aspects, 535, 225-231. https://doi.org/10.1016/j.colsurfa.2017.09.041

Faria, F. C. (2015) Produção de tintas naturais para construção civil: testes de preparação, aplicação e avaliação do intemperismo acelerado. [Dissertação de Mestrado, – Universidade Federal do Paraná (UFPR), Curitiba/Paraná – Bazil], 116 p.

Fazenda, J. M. R. (2005) Polimerização: considerações teóricas, In: Fazenda, J.M.R. (Coord.), Tintas & Vernizes: Ciência e Tecnologia. 3º edição. São Paulo: Edgard Blücher.

Fazenda, J.M.R. (2009) Tintas: Ciência e Tecnologia.( 4º ed.). Editora Edgard Blücher, 1146 p.

Gao, M., Teng, W., Du, Z., Nie, L., An, X., Liu, W., Sun, X., Shen, Z., & Shi, A. (2021) Source profiles and emission factors of VOCs from solvent-based architectural coatings and their contributions to ozone and secondary organic aerosol formation in China. Chemosphere, 275, 129815. https://doi.org/10.1016/j.chemosphere.2021.129815

Gu, Y., & Jérôme, F. (2013) Bio-based solvents: an emerging generation of fluids for the design of eco-efficient processes in catalysis and organic chemistry. Chemical Society Reviews, 42, 9550-9570. https://doi.org/10.1039/C3CS60241A

Ifijen, I. H. (2022) Review on solvents based alkyd resins and water borne alkyd resins: impacts of modification on their coating properties. Chemistry Africa, 5, 211-225. https://doi.org/10.1007/s42250-022-00318-3

Jaswal, S., & Gaur, B. (2014) New trends in vinyl ester resins. Reviews in Chemical Engineering, 30, 567-581. https://doi.org/10.1515/revce-2014-0012

Jiao, C., Sun, L., Shao, Q., Song, J., Hu, Q., Naik, N., & Guo, Z. (2021) Advances in waterborne acrylic resins: Synthesis principle, modification strategies, and their applications. ACS Omega, 6, 2443-2449. https://doi.org/10.1021/acsomega.0c05593

Jiménez-López, A. M., & Hincapié-Llanos, G. A. (2022) Identification of factors affecting the reduction of VOC emissions in the paint industry: Systematic literature review-SLR. Progress in Organic Coatings, 170, 106945. https://doi.org/10.1016/j.porgcoat.2022.106945

Jin, F. L., Li, X., & Park, S. J. (2015) Synthesis and application of epoxy resins: A review. Journal of Industrial and Engineering Chemistry, 29, 1-11. https://doi.org/10.1016/j.jiec.2015.03.026

Lewarchik, R. (2015) Fundamentals of Waterborne Resin Technology. Prospector Knowledge Center. https://knowledge.ulprospector.com/3069/pc-fundamentals-waterborne-resin-technology/

Marin, D., Chiarello, L. M., Wiggers, V. R., Oliveira, A. D., & Botton, V. (2023) Effect of coupling agents on properties of vegetable fiber polymeric composites: review. Polímeros: ciência e Tecnologia, 33, 1-11.

Mello, V. M., & Suarez, P. A. Z. (2012) As formulações de tintas expressivas através da história. Revista virtual de química, 4, 2-12. https://doi.org/10.5935/1984-6835.20120002

Motlatle, A. M., Ray, S. S., Ojijo, V., & Scriba, M. R. (2022) Polyester-based coatings for corrosion protection. Polymers, 14, 3413. https://doi.org/10.3390/polym14163413

Nunes, L.P. (2012) Materiais: Aplicações de Engenharia, Seleção e Integridade. 1º edição. Rio de Janeiro: Interciência, 406 p.

Porwal, T. (2015) Paint pollution harmful effects on environment. International Journal of Research-GRANTHAALAYAH, 3, 1–4. https://doi.org/10.29121/granthaalayah.v3.i9SE.2015.3204

Precedence Research (2022) Waterborne Coatings Market. https://www.precedenceresearch.com/waterborne-coatings-market

Silva, J. P., Ferreira, M. M. G., Medeiros, K. J. P., & Rodrigues, H. C. (2019) As cores da mãe terra: produção de tintas ecológicas feitas a base de solo para o desenvolvimento de ambientes sustentáveis/ Earth mother colors: production of soil based ecological paints for developing sustainable environments. Brazilian Applied Science Review, 3, 2221-2232. https://doi.org/10.34115/basrv3n5-024

Souza, A. G. R., Gianezini, M., & Watanabe, M. (2018) Panorama do setor de tintas no Brasil: mercado, gestão e tecnologias para o segmento de tintas imobiliárias. Revista Gestão Inovação e Tecnologias, 8, 4430-4446.

Streitberger, H.-J., Goldschmidt, A. (2018). BASF Handbook Basics of Coating Technology: 3rd Revised Edition. Hannover: Vincentz Network, 2018.

Winkelaar, A. (2009) Coatings Basics: 1st Edition. Hannover:Vincentz Network, 474 p. https://doi.org/10.1515/9783748602200

Yebra, D. M, & Weinell, C. E. (2009) 13 - Key issues in the formulation of marine antifouling paints, Editor(s): Claire Hellio, Diego Yebra, In Woodhead Publishing Series in Metals and Surface Engineering, Advances in Marine Antifouling Coatings and Technologies, Woodhead Publishing, 308-333. https://doi.org/10.1533/9781845696313.2.308

Water-soluble epoxy-acrylate liquid paint with antimicrobial and antifungal action: Review of the production process

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