Strain-Hardening, impact protective and Self-Healing supramolecular polyurethane nanocomposites enabled by quadruple H-Bonding, disulfide bonds and nanoparticles

纳米复合材料 聚氨酯 超分子化学 材料科学 纳米颗粒 弹性体 氢键 聚合物 复合材料 化学工程 纳米技术 化学 有机化学 分子 工程类
作者
Ziwei Qin,Yi Yang,Qingli Tian,Hao‐Yang Mi,Heng Li,Runhao Guo,Ying Wang,Chuntai Liu,Changyu Shen
出处
期刊:Chemical Engineering Journal [Elsevier BV]
卷期号:467: 143434-143434 被引量:69
标识
DOI:10.1016/j.cej.2023.143434
摘要

Developing protective materials with intelligent and stimuli-responsive properties is indispensable for safety protection. However, combining contradictory characteristics into a single polymer is challenging, such as high mechanical strength, impact protection, and self-healing properties. Herein, a strain-hardening supramolecular polyurethane nanocomposite (SPN) with high mechanical strength and unique impact protection characteristics is synthesized by incorporating quadruple hydrogen bonds (H-bonds), disulfide bonds, and modified silica nanoparticles into polyurethane elastomer. Benefiting from the dynamic break and re-form characteristic of quadruple H-bonds and the stress dissipation behavior of nanoparticles, SPN exhibits high energy absorption efficiency and impact protection properties. During the drop ball striking test, the impact energy absorption efficiencies reached 90%, and the buffer time of impact was significantly longer than common buffering materials. The SPN exhibited excellent stretchability and self-healing ability, ascribing to disulfide metathesis and H-bonds association. Moreover, the prepared SPN could be easily processed through a hot press and showed negligible creeping. The developed SPN could serve as a novel self-standing impact protective material that offers promising prospects in sports, transportation, and aerospace fields.
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