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Super‐Tough, Self‐Healing Polyurethane Based on Diels‐Alder Bonds and Dynamic Zinc–Ligand Interactions

Chunfa Ouyang, Chao Zhao, Wei Li, Xiuchun Wu, Xiaoxia Le, Tao Chen, Wei Huang, Qun Gao, Xiaoqian Shan, Rei ZhG, Weiping Zhang

2020Macromolecular Materials and Engineering31 citationsDOI

Abstract

Abstract Self‐healing polymer materials have attracted extensive attention and have been explored due to their ability of crack repairing in materials. This paper aims to develop a novel polyurethane‐based material with high self‐healing efficiency and excellent mechanical properties under 80 °C on the basis of reversible Diels–Alder bonds as well as zinc–ligand structure (DA‐ZN‐PU). By integrating DA bonds and zinc–ligand structure, as‐prepared DA‐ZN‐PU samples reach the maximum tensile strength as much as 28.45 MPa. After self‐healing, the tensile strength is 25.85 MPa, leading to the high self‐healing efficiency of 90.8%. In addition, by introducing carbonyl iron powder (CIP), a new polyurethane containing carbonyl iron powder (DA‐ZN‐CIP‐PU) can be achieved, exhibiting microwave‐assisted self‐healing property. And the self‐healing efficiency can be reached to 92.6% in 3 min. Due to high self‐healing efficiency and excellent mechanical properties of the prepared novel polyurethane, it has application attributes in crack repair of functional composite materials.

Topics & Concepts

Materials sciencePolyurethaneZincUltimate tensile strengthSelf-healingLigand (biochemistry)PolymerComposite materialChemical engineeringMetallurgyChemistryReceptorMedicineEngineeringPathologyBiochemistryAlternative medicinePolymer composites and self-healingPolydiacetylene-based materials and applicationsAntimicrobial agents and applications
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