A facile biomass-based coating for flax fabric toward plant fiber/biobased epoxy composite with enhanced fire safety

IF 6.3 2区化学 Q1 POLYMER SCIENCE Polymer Degradation and Stability Pub Date : 2024-11-07 DOI:10.1016/j.polymdegradstab.2024.111057

Xiang Ao , Robert Crouse , Gloria Guerrero-Muñoz , De-Yi Wang

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Abstract

The natural abundance, biodegradability, and low density of plant fibers, together with biobased epoxy thermoset resin, have driven the increasing popularity of plant fiber/polymer composites (PFRPs) to wider applications in various industries. However, the striving for biomass-based flame retardants (FRs) treatment for PFRPs remained a bottleneck due to polymers’ inherent vulnerability against fire and the increasing environmental awareness. In this work, a facile two-step aqueous solution coating process was proposed for fabric surface treatment of flax fabric using fully biobased phytic acid and chitosan from polysaccharides. The treated flax fabric demonstrated self-extinguishing behavior when ignited and showed a decrease in peak heat release rate (PHRR) by 58% under combustion. The laminate produced by this treated flax fabric and biobased epoxy resin showed a decrease of PHRR by 36% and an increase of more than 200% for the time of torch fire burn-through, demonstrating intriguing flame retardance brought by only FRs treatment on flax fabric reinforcements. Various measurements were done to elaborate on the role of treated flax fabric in the flame retardancy of polymer composites.

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一种用于亚麻织物的简易生物质涂层，可提高植物纤维/生物基环氧树脂复合材料的防火安全性

植物纤维的天然丰富性、生物可降解性和低密度，再加上生物基环氧热固性树脂，促使植物纤维/聚合物复合材料（PFRP）在各行各业得到越来越广泛的应用。然而，由于聚合物固有的易燃性和日益增强的环保意识，PFRP 的生物质基阻燃剂（FRs）处理仍然是一个瓶颈。本研究提出了一种两步水溶液涂覆工艺，利用全生物基植酸和多糖壳聚糖对亚麻织物进行表面处理。处理后的亚麻织物在点燃时表现出自熄性，燃烧时的峰值热释放率（PHRR）降低了 58%。由这种经过处理的亚麻织物和生物基环氧树脂制成的层压材料的 PHRR 降低了 36%，而在火炬烧穿的时间内，PHRR 增加了 200%以上，这表明仅对亚麻织物增强材料进行 FRs 处理就能带来耐人寻味的阻燃效果。为了详细说明经处理的亚麻织物在聚合物复合材料阻燃性中的作用，还进行了各种测量。

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来源期刊

Polymer Degradation and Stability 化学-高分子科学

CiteScore

10.10

自引率

10.20%

发文量

325

审稿时长

23 days

期刊介绍： Polymer Degradation and Stability deals with the degradation reactions and their control which are a major preoccupation of practitioners of the many and diverse aspects of modern polymer technology. Deteriorative reactions occur during processing, when polymers are subjected to heat, oxygen and mechanical stress, and during the useful life of the materials when oxygen and sunlight are the most important degradative agencies. In more specialised applications, degradation may be induced by high energy radiation, ozone, atmospheric pollutants, mechanical stress, biological action, hydrolysis and many other influences. The mechanisms of these reactions and stabilisation processes must be understood if the technology and application of polymers are to continue to advance. The reporting of investigations of this kind is therefore a major function of this journal. However there are also new developments in polymer technology in which degradation processes find positive applications. For example, photodegradable plastics are now available, the recycling of polymeric products will become increasingly important, degradation and combustion studies are involved in the definition of the fire hazards which are associated with polymeric materials and the microelectronics industry is vitally dependent upon polymer degradation in the manufacture of its circuitry. Polymer properties may also be improved by processes like curing and grafting, the chemistry of which can be closely related to that which causes physical deterioration in other circumstances.