多巴胺改性黏土增强聚醚型聚氨酯：界面氢键的作用。

Reinforcement of polyether polyurethane with dopamine-modified clay: the role of interfacial hydrogen bonding.

机构信息

School of Materials Science and Engineering, Nanyang Technological University, 50 Nanyang Avenue, Singapore 639798.

出版信息

ACS Appl Mater Interfaces. 2012 Sep 26;4(9):4571-8. doi: 10.1021/am300947b. Epub 2012 Sep 6.

Abstract

Dopamine-modified clay (D-clay) was successfully dispersed into polyether polyurethane (PU) by solvent blending. It is found that the incorporation of D-clay into PU gives rise to significant improvements in mechanical properties, including initial modulus, tensile strength, and ultimate elongation, at a very low clay loading. The large reinforcement could be attributed to the hydrogen bonds between the hard segments of PU and stiff D-clay layers that lead to more effective interfacial stress transfer between the polymer and D-clay. Besides, the interactions between D-clay and PU are also stronger than those between Cloisite 30B organoclay and the PU chains. Consequently, at a similar clay loading, the PU/D-clay nanocomposite has much higher storage modulus than the PU/organoclay nanocomposite at elevated temperatures.

摘要

多巴胺改性粘土（D-粘土）通过溶剂共混成功分散到聚醚型聚氨酯（PU）中。研究发现，D-粘土的加入使得 PU 的力学性能，包括初始模量、拉伸强度和极限伸长率，在很低的粘土负载下得到显著提高。这种大的增强效果可以归因于 PU 的硬段与刚性 D-粘土层之间的氢键，这导致了聚合物和 D-粘土之间更有效的界面应力传递。此外，D-粘土与 PU 之间的相互作用也比 Cloisite 30B 有机粘土与 PU 链之间的相互作用更强。因此，在相似的粘土负载下，PU/D-粘土纳米复合材料在高温下具有比 PU/有机粘土纳米复合材料更高的储能模量。

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多巴胺改性黏土增强聚醚型聚氨酯：界面氢键的作用。

Reinforcement of polyether polyurethane with dopamine-modified clay: the role of interfacial hydrogen bonding.

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