Enhanced Flame-retardant Performance of Undervalued Polyethylene Terephthalate Waste as a Potential use in Foamed Materials

IF 4.7 3区工程技术 Q2 ENGINEERING, ENVIRONMENTAL Journal of Polymers and the Environment Pub Date : 2024-10-04 DOI:10.1007/s10924-024-03424-0

Mercedes Santiago-Calvo, Andreas Himmelsbach, Carlos Alonso, Maria-Teresa Fernández, Esteban Cañibano, Christian Brütting, Tobias Standau, Holger Ruckdäschel

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Abstract

Nowadays, the post-consumer polyethylene terephthalate (PET) waste from the packaging industry is one of the largest plastic waste streams worldwide. While clear PET waste is commonly recycled and is reused for textile and packaging applications (even with food contact), coloured PET waste`s degraded state limits its reusing potential. This highlights the urgent need to upgrade low-value PET waste. This study focuses on enhancing coloured recycled PET (rPET) quality by introducing an epoxide chain extender (CE) from 0 to 1 wt%, to improve rheological behaviour. Simultaneously, upcycling opportunities are explored by incorporating an eco-friendly phosphorous-based flame retardant (FR) from 0 to 10 wt%, to reduce flammability and thus enabling electrical and electronic applications, among others. The impact of each additive, as well as their combination, is evaluated on the chemical structure, thermal, rheological and burning behaviour of undervalued rPET. The optimal CE content is determined at 0.8 wt%, promoting branched and higher molecular weight polymer chains. Regarding FR, 6, 8 and 10 wt% highly enhance the fire resistance. Furthermore, the combination CE/FR enables a synergistic effect, notably improving burning behaviour. Additionally, the foaming potential of the resulting high-value rPET is assessed for the first time through one-step batch foaming using supercritical CO₂ as foaming agent, aiming to develop lightweight materials endowed with superior burning behaviour. The material containing 0.8 wt% CE reaches the lowest density (200 kg/m³) and a closed cellular structure with smaller cell diameters (8 ± 3 μm). Meanwhile, the combination of 0.8 wt% CE and 6 wt% FR gives rise to a foamed material with density of 659 kg/m³ and cell diameter of 7 μm. Thus, this batch procedure in one-step enables the formation of microcellular foams based on coloured rPET (cell size below 10 μm).

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低估的聚对苯二甲酸乙二醇酯废物在泡沫材料中的潜在应用

如今，来自包装行业的消费后聚对苯二甲酸乙二醇酯（PET）废物是全球最大的塑料废物流之一。虽然透明的PET废物通常被回收再利用，并用于纺织和包装应用（即使与食品接触），但彩色PET废物的降解状态限制了其再利用潜力。这凸显了对低价值PET废物进行升级的迫切需要。本研究的重点是提高彩色再生PET （rPET）的质量，通过引入环氧化物扩链剂（CE）从0到1 wt%，以改善流变性能。同时，通过将环保型磷基阻燃剂（FR）从0 wt%添加到10 wt%，探索升级回收的机会，以降低可燃性，从而实现电气和电子应用等。评估了每种添加剂及其组合对低估的rPET的化学结构、热、流变和燃烧行为的影响。最佳CE含量确定为0.8 wt%，促进支链和高分子量聚合物链。在阻燃系数方面，6、8、10 wt%的阻燃系数均能显著提高阻燃性能。此外，CE/FR的组合实现了协同效应，显著改善了燃烧性能。此外，本研究还首次以超临界CO2为发泡剂，通过一步间歇发泡的方法，对制备的高值rPET的发泡潜力进行了评估，旨在开发具有优异燃烧性能的轻质材料。含有0.8 wt% CE的材料密度最低（200 kg/m3），胞孔直径较小（8±3 μm），具有封闭的胞孔结构。同时，0.8 wt% CE和6 wt% FR的组合产生的泡沫材料密度为659 kg/m3，孔直径为7 μm。因此，该批处理过程可以一步形成基于彩色rPET的微孔泡沫（细胞尺寸小于10 μm）。

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来源期刊

Journal of Polymers and the Environment 工程技术-高分子科学

CiteScore

9.50

自引率

7.50%

发文量

297

审稿时长

9 months

期刊介绍： The Journal of Polymers and the Environment fills the need for an international forum in this diverse and rapidly expanding field. The journal serves a crucial role for the publication of information from a wide range of disciplines and is a central outlet for the publication of high-quality peer-reviewed original papers, review articles and short communications. The journal is intentionally interdisciplinary in regard to contributions and covers the following subjects - polymers, environmentally degradable polymers, and degradation pathways: biological, photochemical, oxidative and hydrolytic; new environmental materials: derived by chemical and biosynthetic routes; environmental blends and composites; developments in processing and reactive processing of environmental polymers; characterization of environmental materials: mechanical, physical, thermal, rheological, morphological, and others; recyclable polymers and plastics recycling environmental testing: in-laboratory simulations, outdoor exposures, and standardization of methodologies; environmental fate: end products and intermediates of biodegradation; microbiology and enzymology of polymer biodegradation; solid-waste management and public legislation specific to environmental polymers; and other related topics.