Design of a bio-based flame-retardant epoxy/amine cross-linked coatings

IF 2.7 3区 化学 Q2 POLYMER SCIENCE Journal of Applied Polymer Science Pub Date : 2024-09-27 DOI:10.1002/app.56279
Siavash Mansouri, Raj Shankar Hazra, Shanti Swarup, Mohiuddin Quadir
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Abstract

Epoxy cross-linked coatings are widely used to protect and beautify many surfaces all around us. However, these coatings possess a dense carbonaceous structure, rendering them susceptible to ignition, spread, and propagation of flames. Therefore, flame-retardant (FR) materials are added into these coatings as additives to improve flame resistance properties. Many of the commercially available FR additives are halogenated, metal oxide, and alkyl phosphate-based compounds, often originating from nonrenewable resources. Some of these compounds produce undesirable toxic fumes and byproducts upon combustion. To overcome these challenges, we tested bio-based phytic acid (PA) as an FR additive in epoxy resin, cross-linked with bio-based phenalkamine (NX)—a material derived from cashew oil nutshell. Our findings demonstrate that the incorporation of PA into an NX-cross-linked epoxy coating system significantly enhances the FR properties of the coatings while preserving their physico-mechanical characteristics such as solvent resistance and hardness. Additionally, the inclusion of PA markedly enhances the FR performance of the coatings by reducing flame spread rate, minimizing dripping, and suppressing ignition temperature. Moreover, upon addition of 10% w/w PA increases the ignition time, decreases peak heat release rate (PHRR) by more than 25%, reduces total heat release (THR) by the similar amount, and suppresses total smoke production by >40% compared to the coatings containing FR- agents based on metal oxides and alkyl phosphates. Our work clearly demonstrates the feasibility of using PA as the FR additive for producing eco-friendly and low-flammable epoxy cross-linked coatings.

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设计生物基阻燃环氧/胺交联涂料
环氧交联涂料被广泛用于保护和美化我们周围的许多表面。然而,这些涂料具有致密的碳质结构,容易被火焰点燃、蔓延和传播。因此,阻燃(FR)材料作为添加剂被添加到这些涂料中,以提高阻燃性能。许多市售的阻燃添加剂都是卤化、金属氧化物和烷基磷酸盐基化合物,通常来自不可再生资源。其中一些化合物在燃烧时会产生不良的有毒烟雾和副产品。为了克服这些挑战,我们测试了将生物基植酸(PA)作为环氧树脂的阻燃添加剂,并与生物基酚醛胺(NX)--一种从腰果壳中提取的材料--交联。我们的研究结果表明,在 NX 交联环氧树脂涂料体系中加入 PA 能显著提高涂料的阻燃性能,同时保持涂料的物理机械特性,如耐溶剂性和硬度。此外,加入 PA 还能降低火焰蔓延率、减少滴落和抑制点火温度,从而显著提高涂料的阻燃性能。此外,与含有基于金属氧化物和烷基磷酸盐的阻燃剂的涂料相比,添加 10% w/w PA 可延长点火时间,降低 25% 以上的峰值热释放率(PHRR),减少相同数量的总热释放率(THR),并将总烟雾产生量抑制 40%。我们的工作清楚地证明了使用 PA 作为阻燃添加剂生产环保型低易燃环氧交联涂料的可行性。
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来源期刊
Journal of Applied Polymer Science
Journal of Applied Polymer Science 化学-高分子科学
CiteScore
5.70
自引率
10.00%
发文量
1280
审稿时长
2.7 months
期刊介绍: The Journal of Applied Polymer Science is the largest peer-reviewed publication in polymers, #3 by total citations, and features results with real-world impact on membranes, polysaccharides, and much more.
期刊最新文献
Editorial Board, Aims & Scope, Table of Contents Editorial Board, Aims & Scope, Table of Contents Editorial Board, Aims & Scope, Table of Contents Synthesis of reaction promoters for epoxy polymerization: Enhancing storage stability and mechanical properties of one-pot epoxy systems Editorial Board, Aims & Scope, Table of Contents
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