Thermally and base-triggered 'debond-on-demand' crosslinked polyurethane adhesives.

IF 3.1 3区化学 Q2 CHEMISTRY, PHYSICAL

Faraday Discussions Pub Date : 2025-09-17 DOI:10.1039/d5fd00051c

Alarqam Zyaad Tareq, Matthew Hyder, Josephine L Harries, Wayne Hayes

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Abstract

To address current industrial needs and modern legislation, a series of rapidly degradable and strongly adhering crosslinked polyurethanes featuring the commercially available and degradable chain-extender 2,2'-sulfonyldiethanol have been made for use as depolymerisable coatings and 'debond-on-demand' hot-melt adhesives. Variation of the chain-extended polyurethane (CEPU) composition, through increased hard segment content, provided a route to tailor the mechanical, adhesive, and degradable characteristics, whereby CEPUs with ultimate tensile strengths and elongation at break of up to 42.68 MPa and 17.59 ε, respectively, could be achieved. The adhesive shear strength of the CEPUs was investigated on a selection of substrates with the highest shear strength observed of 7.80 MPa on aluminium. Depolymerization was triggered via exposure of the CEPUs to tetrabutylammonium fluoride (TBAF), causing the solubilisation of the CEPUs and the generation of low molecular weight species. Rapid 'debond-on-demand' adhesion was also achieved upon exposure to 1 M TBAF_(aq), with losses in shear strength of up to 34% on aluminium when exposed for 30 minutes.

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热和碱触发的“按需脱粘”交联聚氨酯粘合剂。

为了满足当前的工业需求和现代法规，一系列可快速降解和强粘附的交联聚氨酯具有市售和可降解的扩链剂2,2'-磺基二乙醇，用于解聚涂料和“按需脱粘”热熔胶。通过增加硬段含量来改变扩展链聚氨酯（CEPU）的组成，为调整其机械、粘合和可降解特性提供了一条途径，从而使CEPU的极限拉伸强度和断裂伸长率分别达到42.68 MPa和17.59 ε。在选定的基材上研究了CEPUs的粘接剪切强度，在铝上观察到最高的剪切强度为7.80 MPa。通过将cepu暴露于四丁基氟化铵（TBAF）中引发解聚，导致cepu溶解并产生低分子量物种。在暴露于1 M TBAF（aq）时，也实现了快速的“按需剥离”粘附，暴露30分钟后，铝的剪切强度损失高达34%。

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来源期刊

Faraday Discussions 化学-物理化学

自引率

0.00%

发文量

259

期刊介绍： Discussion summary and research papers from discussion meetings that focus on rapidly developing areas of physical chemistry and its interfaces