材料科学
聚氨酯
胶粘剂
扩展器
热塑性聚氨酯
复合材料
韧性
弹性体
极限抗拉强度
热塑性弹性体
粘附
热塑性塑料
聚合物
共聚物
图层(电子)
作者
Hao Wu,Yaxin Chen,Weipu Zhu,Yonggang Shangguan,Qiang Zheng
标识
DOI:10.1021/acsapm.3c00198
摘要
Preparing polyurethane hot-melt adhesives (HMA) with high bonding strength and toughness is still a huge challenge. As an indispensable component in polyurethane synthesis, the chain extender greatly influences the molecular chain structure, microphase structure, and mechanical properties of resultant polyurethane, so it is crucial to design a chain extender with suitable molecular structures. In this work, a bio-based furandicarboxamide diol chain extender was prepared and used to synthesize thermoplastic furandicarboxamide-based polyurethane (PUFD). The furandicarboxamide group acted as a multiple hydrogen-bonding motif that could endow polyurethane with excellent elongation at break and breaking strength. It was noteworthy that the resultant PUFD-HMA exhibited ultrahigh adhesive strength on a variety of substrates, including metals, composites, and plastics. The strong adhesion was ascribed to the formation of multiple noncovalent bonds between the groups on the polyurethane molecular chain and the surface of the substrate. Meanwhile, rebonding was easily achieved by reheating the separated substrate and PUFD-HMA could retain 75% of its original adhesion strength after 5 repeated uses. It is expected that the molecular design strategy of this work may also be applicable to other polyurethane elastomer or adhesive systems.
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