Issue 14, 2021

A thermally insulating vermiculite nanosheet–epoxy nanocomposite paint as a fire-resistant wood coating

Abstract

Conventional fire-retardant composite coatings are typically made of organic-based materials that reduce flame spread rates. However, the associated chemical reactions and starting precursors produce toxic and hazardous gases, affecting the environment and contributing to climate change. Wood is one of the most common materials used in construction and households, and thin-film fire-retardant coatings are needed to protect it from fire. Here, we derive high-performance nanocomposite paint-based coatings from naturally occurring and highly insulating layered vermiculite. The coatings are made using different weight percentages of shear-exfoliated vermiculite nanosheets in an epoxy matrix and are brush-coated onto teak wood. A series of tests using coated wooden rods and standard fire retardancy tests confirm a reduction in flame spread and combustion velocity with minimal toxic smoke release. Samples coated with the vermiculite/epoxy nanocomposite paint resist fire propagation, and post-combustion analysis indicates their resistance to thermal degradation. Our results offer a novel and eco-efficient solution to minimize the flame propagation rate, enhancing char development, and expand the scope of applications of ultra-thin vermiculite in nanocomposite coatings as a fire retardant, exploiting its low thermal conductivity in thermal insulation systems.

Graphical abstract: A thermally insulating vermiculite nanosheet–epoxy nanocomposite paint as a fire-resistant wood coating

Supplementary files

Article information

Article type
Paper
Submitted
20 Mär 2021
Accepted
06 Jun 2021
First published
07 Jun 2021
This article is Open Access
Creative Commons BY license

Nanoscale Adv., 2021,3, 4235-4243

A thermally insulating vermiculite nanosheet–epoxy nanocomposite paint as a fire-resistant wood coating

A. Sethurajaperumal, A. Manohar, A. Banerjee, E. Varrla, H. Wang and K. (. Ostrikov, Nanoscale Adv., 2021, 3, 4235 DOI: 10.1039/D1NA00207D

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