A healable polyethylene adhesive using poly(ethylene methacrylic acid) (EMAA) for three-layer pipe coatings

Q1 Materials Science

Multifunctional Materials Pub Date : 2021-01-01 DOI:10.1088/2399-7532/abd782

C. Dell'olio, Jane Zhang, K. Leong, M. Samsudin, R. Varley

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引用次数: 0

Abstract

Poly(ethylene methacrylic acid) (EMAA) has been used here as a thermally activated healing agent (HA) in three layered polyolefinic (3LPO) pipe coatings for the first time. The EMAA (HA) is blended with a linear low density polyethylene (LLDPE) modified with maleic anhydride (MAH) to create a healable multi-functional adhesive (HAMA), which is used to bind the fusion bonded epoxy primer and high density polyethylene topcoat layers together. Different compositions of the HA and modified adhesive were trialled for their healing efficiency using three different healing conditions to explore the effect of increasing temperature and applied load or force. The standard healing protocol used a healing temperature of 110 °C and an applied load of 120 N for 60 min. A high temperature variant increased the temperature to 120 °C while a high load variant increased the applied force to 240 N. Using a 1:1 HAMA adhesive, healing efficiencies of about 70% were achieved for the standard healing condition. Increasing the applied load to 240 N decreased healing to between 64% and 68% depending on the healing measurement, but at 120 °C healing increased to between 82% and 84%. Regardless of the healing condition, overall healing efficiency increased with increasing EMAA (HA) concentration. This study also provided insight into the healing mechanism of the HAMA adhesives by highlighting some necessary features for healing. A bi-phasic microstructure consisting of large EMAA nodules with sufficient adhesion to the MAH-modified LLDPE was identified as being critical. Furthermore, increasing healing temperature increased healing efficiency due to the enhanced flow of EMAA and increased mobility of the polyethylene. Although these results are preliminary in nature, they do provide significant promise that multifunctional HAMA adhesives can be applied as simple, effective and repeatable 3LPO self-healing pipe coatings.

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一种可愈合的聚乙烯胶粘剂，使用聚甲基乙烯丙烯酸(EMAA)，用于三层管道涂层

聚乙烯甲基丙烯酸(EMAA)作为热活化愈合剂(HA)首次应用于三层聚烯烃(3LPO)管道涂料中。EMAA (HA)与马来酸酐(MAH)改性的线性低密度聚乙烯(LLDPE)混合，形成可愈合的多功能粘合剂(HAMA)，用于将熔融粘合的环氧底漆和高密度聚乙烯面漆粘合在一起。在三种不同的愈合条件下，试验了不同成分的透明质酸和改性胶粘剂的愈合效率，以探索温度升高和施加载荷或力的影响。标准愈合方案使用110°C的愈合温度和120 N的施加载荷，持续60分钟。高温变体将温度增加到120°C，而高负载变体将施加力增加到240 N。使用1:1的HAMA粘合剂，在标准愈合条件下实现了约70%的愈合效率。将施加的载荷增加到240 N，根据愈合测量，愈合率降低到64%到68%之间，但在120°C时，愈合率增加到82%到84%之间。无论愈合情况如何，整体愈合效率随EMAA (HA)浓度的增加而增加。本研究还通过强调愈合的一些必要特征，为HAMA胶粘剂的愈合机制提供了见解。由大型EMAA结节组成的双相微观结构与mah改性LLDPE具有足够的附着力，被认为是关键。此外，由于EMAA的流动增强和聚乙烯的迁移率增加，提高了愈合温度，从而提高了愈合效率。虽然这些结果是初步的，但它们确实提供了重要的希望，多功能HAMA胶粘剂可以作为简单，有效和可重复的3LPO自修复管道涂层。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Multifunctional Materials Materials Science-Materials Science (miscellaneous)

CiteScore

12.80

自引率

0.00%

发文量