Flame retardant and anti-corrosion behaviour of sustainable composites from Aerva lanata ash and cardanol-based benzoxazine

IF 1.8 4区 材料科学 Q4 GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY Green Materials Pub Date : 2023-07-05 DOI:10.1680/jgrma.22.00020
Narmatha Muthukumar, H. Arumugam, Balaji Krishnasamy, A. Muthusamy, Alagar Muthukaruppan
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Abstract

A new monomer of bi-functional benzoxazine was synthesized using cardanol (C) and p-phenylenediamine (ppda) under suitable experimental conditions. The curing behaviour of C-ppda benzoxazine monomer was studied by DSC analysis and Tp of C-ppda benzoxazine was found to be 237°C. Further, benzoxazine monomer was reinforced with varying weight percentages (5, 10 and 15 wt%) of bio-ash derived from Aerva lanata (AL-ash) to obtain hybrid composites. TGA data infer that AL-ash reinforced benzoxazine composites possess an excellent thermal stability and flame retardant behaviour. The morphology of AL-ash and cardanol based benzoxazine composites was analysed using FESEM. The FESEM results infer the homogeneous distribution of AL-ash in composites. Energy dispersive X-ray (EDX) spectroscopy analysis was used to determine the elemental composition of AL-ash used for preparation of composites. The value of water contact angle of poly(C-ppda) was found to be 148°. Data obtained from corrosion studies indicated that mild steel specimen coated with benzoxazine matrix and specimen coated with bio-ash reinforced benzoxazine composites exhibit an excellent resistance towards corrosion. The bio-ash reinforced composites of cardanol based benzoxazine can be used in the form of sealants, encapsulants, adhesives, coatings and matrices in microelectronics and automobile applications under high thermal and moist environmental conditions.
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粉煤灰和腰果酚基苯并恶嗪可持续复合材料的阻燃和防腐性能
以腰果酚(C)和对苯二胺(ppda)为原料,在适宜的实验条件下合成了一种新的双官能苯并恶嗪单体。通过DSC分析研究了C-ppda苯并恶嗪单体的固化行为,发现C-ppda苯并恶嗪的Tp为237°C。此外,苯并恶嗪单体以不同的重量百分比(5、10和15 wt%)衍生自Aerva lanata的生物灰(AL灰)以获得混合复合材料。TGA数据表明,铝灰增强苯并恶嗪复合材料具有优异的热稳定性和阻燃性能。用FESEM分析了铝灰和腰果醇基苯并恶嗪复合材料的形貌。FESEM结果推断出铝灰在复合材料中的均匀分布。采用能量色散X射线(EDX)光谱分析法测定了用于制备复合材料的铝灰的元素组成。聚(C-ppda)的水接触角为148°。从腐蚀研究中获得的数据表明,涂有苯并恶嗪基体的软钢试样和涂有生物灰增强苯并恶津复合材料的试样表现出优异的耐腐蚀性。生物灰增强的腰果酚基苯并恶嗪复合材料可在高温和潮湿环境条件下以密封剂、密封剂、粘合剂、涂层和基体的形式用于微电子和汽车应用。
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来源期刊
Green Materials
Green Materials Environmental Science-Pollution
CiteScore
3.50
自引率
15.80%
发文量
24
期刊介绍: The focus of Green Materials relates to polymers and materials, with an emphasis on reducing the use of hazardous substances in the design, manufacture and application of products.
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