Coffee waste-derived biochar as a flame retardant for epoxy nanocomposites

IF 8.6 2区 工程技术 Q1 ENERGY & FUELS
Aurelio Bifulco , Mattia Bartoli , Immacolata Climaco , Maria Cristina Franchino , Daniele Battegazzore , Rhoda Afriyie Mensah , Oisik Das , Henri Vahabi , Giulio Malucelli , Antonio Aronne , Claudio Imparato
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Abstract

Starting from spent coffee grounds, the use of coffee-derived biochar (CB) as a flame retardant (FR) additive was explored following a waste-to-wealth approach. CB was employed alone and in combination with ammonium polyphosphate (APP) and a ternary (Si-Ti-Mg) mixed oxide to enhance the thermal, fire, and mechanical performances of a bisphenol A diglycidyl ether (DGEBA)-based epoxy resin modified with (3-aminopropyl)-triethoxysilane (APTES) and cured with a cycloaliphatic amine hardener. The presence of silicon-modified epoxy chains guaranteed the uniform distribution of CB throughout the resin. The combined FR action of fillers (CB, APP, and Si-Ti-Mg oxide) and the acidic characteristics of hybrid epoxy moieties enabled the achievement of a no dripping UL 94-V-0 classification for epoxy resin containing 20 wt% CB and 1 wt% of phosphorus loading, significantly increasing the flexural modulus (by ∼15%). Although it is not self-extinguishing, compared to pristine resin, the silicon-modified epoxy nanocomposite filled only with CB exhibited a remarkable decrease in the peak of heat release rate (pHRR) (by ∼65%) and a beneficial smoke suppressant effect with a notable decrease (∼11%) in the total smoke production. Cone calorimetry tests, pyrolysis combustion flow calorimetry analysis, and microscopy measurements helped to outline the combined mode of action of CB, APP, and Si-Ti-Mg oxide in the flame retardation of the hybrid epoxy resin, highlighting a strong FR action in the condensed phase, with the formation of a stable aromatic ceramic char, as well as the smoke suppressant character due to the basic nature of the ternary metal oxide and the ability of porous biochar to adsorb the generated gases.

Abstract Image

咖啡废料衍生生物炭作为环氧纳米复合材料的阻燃剂
从废弃的咖啡渣开始,我们采用变废为宝的方法,探索了如何将咖啡衍生生物炭(CB)用作阻燃添加剂(FR)。CB 可单独使用,也可与聚磷酸铵(APP)和三元(Si-Ti-Mg)混合氧化物结合使用,以提高双酚 A 二缩水甘油醚(DGEBA)基环氧树脂的热性能、防火性能和机械性能,该环氧树脂经(3-氨基丙基)三乙氧基硅烷(APTES)改性,并用环脂族胺固化剂固化。硅改性环氧链的存在保证了 CB 在整个树脂中的均匀分布。填料(CB、APP 和 Si-Ti-Mg 氧化物)的阻燃作用与混合环氧分子的酸性特性相结合,使含 20 wt% CB 和 1 wt% 磷的环氧树脂达到了 UL 94-V-0 级无滴漏标准,并显著提高了弯曲模量(15%)。与原始树脂相比,虽然硅改性环氧纳米复合材料不具有自熄性,但只填充了 CB 的硅改性环氧纳米复合材料的热释放率峰值(pHRR)明显降低(65%),并且具有良好的烟雾抑制效果,总烟雾产生量明显减少(11%)。锥形量热仪测试、热解燃烧流动量热仪分析和显微镜测量有助于勾勒出 CB、APP 和氧化硅-钛-镁在混合环氧树脂阻燃中的综合作用模式,突出了在凝聚相中的强阻燃作用,形成了稳定的芳香陶瓷炭,以及由于三元金属氧化物的基本性质和多孔生物炭吸附所产生气体的能力而产生的抑烟特性。
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来源期刊
Sustainable Materials and Technologies
Sustainable Materials and Technologies Energy-Renewable Energy, Sustainability and the Environment
CiteScore
13.40
自引率
4.20%
发文量
158
审稿时长
45 days
期刊介绍: Sustainable Materials and Technologies (SM&T), an international, cross-disciplinary, fully open access journal published by Elsevier, focuses on original full-length research articles and reviews. It covers applied or fundamental science of nano-, micro-, meso-, and macro-scale aspects of materials and technologies for sustainable development. SM&T gives special attention to contributions that bridge the knowledge gap between materials and system designs.
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