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Healable, Recyclable, and Mechanically Tough Polyurethane Elastomers with Exceptional Damage Tolerance

Xiaohan Wang, Shengnan Zhan, Zhong‐Yuan Lu, Jian Li, Xiao Yang, Yongna Qiao, Yongfeng Men, Junqi Sun

2020Advanced Materials556 citationsDOI

Abstract

Abstract There is a huge requirement of elastomers for use in tires, seals, and shock absorbers every year worldwide. In view of a sustainable society, the next generation of elastomers is expected to combine outstanding healing, recycling, and damage‐tolerant capacities with high strength, elasticity, and toughness. However, it remains challenging to fabricate such elastomers because the mechanisms for the properties mentioned above are mutually exclusive. Herein, the fabrication of healable, recyclable, and mechanically tough polyurethane (PU) elastomers with outstanding damage tolerance by coordination of multiblock polymers of poly(dimethylsiloxane) (PDMS)/polycaprolactone (PCL) containing hydrogen and coordination bonding motifs with Zn 2+ ions is reported. The organization of bipyridine groups coordinated with Zn 2+ ions, carbamate groups cross‐linked with hydrogen bonds, and crystallized PCL segments generates phase‐separated dynamic hierarchical domains. Serving as rigid nanofillers capable of deformation and disintegration under an external force, the dynamic hierarchical domains can strengthen the elastomers and significantly enhance their toughness and fracture energy. As a result, the elastomers exhibit a tensile strength of ≈52.4 MPa, a toughness of ≈363.8 MJ m −3 , and an exceptional fracture energy of ≈192.9 kJ m −2 . Furthermore, the elastomers can be conveniently healed and recycled to regain their original mechanical properties and integrity under heating.

Topics & Concepts

ElastomerMaterials scienceToughnessComposite materialDamage toleranceUltimate tensile strengthPolyurethanePolymerPolycaprolactoneFracture toughnessComposite numberPolymer composites and self-healingPolydiacetylene-based materials and applicationsAdvanced Sensor and Energy Harvesting Materials
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