The effect of nanosilica on the intumescent fire-retardant coating’s properties: Rapid communication

Kajetan Pyrzyński

doi:10.14314/polimery.2023.7.8

Published : 2023-10-17

Vol. 68 No. 7-8 (2023)

The effect of nanosilica on the intumescent fire-retardant coating’s properties

Kajetan Pyrzyński

DOI: https://doi.org/10.14314/polimery.2023.7.8

Rapid communication

Abstract

The effect of nanosilica on the intumescent fire-retardant coating’s properties. Cone calorimetry and a single burning item test were used to determine flammability. The nanosilica-modified intumescent coating allows obtaining a Bs1d0 class non-flammable material for the protection of wood and wood-based materials (e.g., plywood, chipboard, fiberboard, other lignocellulosic composites).

Keywords

flame retardants ; intumescent coatings środki zmniejszające palność ; powłoki pęczniejące

Details

References

Statistics

Authors

Download files

pdf

Zasady cytowania

Pyrzyński, K. (2023). The effect of nanosilica on the intumescent fire-retardant coating’s properties: Rapid communication. Polimery, 68(7-8), 424-430. https://doi.org/10.14314/polimery.2023.7.8

References

Kozłowski R., Pyrzyński K., Michalska A. et al.: Budownictwo i Architektura 2015, 14(4),79. Google Scholar

Winandy J.E., Wiesner F., Hassan B., Morrell J.: Holzforschung 2022, 76(8), 679.
Crossref Google Scholar

Ghiji M., Joseph P., Guerrieri M.: Journal of Structural Fire Engineering 2022, 14(1), 61.
Crossref Google Scholar

Kozłowski R., Mihut L., Pernevan S. et al.: FAO Scientific of Bulletin of Escorena 2012, 5, 23. Google Scholar

Brimo-Cox S., Truesdale A.: “Intumescents — Growing Up in Difficult Times”, PaintPRO 2005, 7, 5. Google Scholar

Ravindra G.P., Khanna A.S.: Journal of Coatings Technology and Research 2017, 14, 1.
Crossref Google Scholar

Adamski R.: Problemy Technologii Lekkie Budownictwo Szkieletowe 2001, 4(32). Google Scholar

Crossref (access date 24.04.2023) Google Scholar

Tylor A.: Polymers Paint Colour Journal 2014, 204(4596), 37. Google Scholar

Kozłowski R., Pyrzyński K., Michalska A. et al.: “Environmentally friendly intumescent fire-retardant coatings and their behavior in fire and napalm conditions”, North African Coatings Congress, Casablanca, Morocco, September 15-16, 2014. Google Scholar

Raport klasyfikacyjny (2/15) w zakresie reakcji na ogień zgodnie z PN-EN 13501-1+A1:2010, IMB&GS, Gliwice, 2015. Google Scholar

Kozłowski R., Wesołek D., Zaikov G.E. et al.: „Pęczniejący ognioodporny lakier do zabezpieczania drewna i tworzyw lignocelulozowych”, Bezpieczeństwo Pożarowe Obiektów Budowlanych, Instytut Techniki Budowlanej Dział Upowszechniania Wiedzy, (Eds Sztarbała G., Węgrzyński W.), 2012, ISBN 978-83-249-6008-8, p. 45. Google Scholar

Pat. USA 903 422 1B2 (2015). Google Scholar

Crossref (access date 27.04.2023) Google Scholar

Kozlowski R., Muzyczek M.: “Improving the flame retardancy of natural fibres”, Handbook of Natural Fibres, Second Edition 2020, Volume 2, Woodhead Publishing Series in Textiles: Number 119, Eds: Kozlowski R., Mackiewicz-Talarczyk M., ISBN: 9780128187821. Google Scholar

Canosa G., Alfieri P.V., Giudice C.A.: Industrial and Engineering Chemistry Research 2011, 50(21), 11897.
Crossref Google Scholar

Crossref (access date 29.04.2023) Google Scholar

Otáhal R., Veselý D., Násadová J. et al.: Pigment and Resin Technology 2011, 40(4), 247.
Crossref Google Scholar

Yasir M., Faiz A., Puteri S.M. et al.: Progress in Organic Coatings 2019, 132, 148.
Crossref Google Scholar

Alongi J., Han Z., Bourbigot S.: Progress in Polymer Science 2015, 51, 28.
Crossref Google Scholar

Altmetric indicators

Citing articles via

CITEDBY SCOPUS

Statistics

Total abstract views : 76

PDF Downloads : 71