A synergistic interfacial and topological strategy for reinforcing aramid nanofiber films
Jiongke Jin, Xun‐En Wu, Huarun Liang, Haomin Wang, Shuo Li, Haojie Lü, Peng Bi, Jiali Niu, Yang Wu, Yingying Zhang
Abstract
, which are 491.0% and 1094.5% that of a pristine aramid nanofiber film, respectively. In addition, it exhibits excellent tolerance to extreme temperatures (-196 to 300 °C) and fatigue resistance to folding 10 000 times. Overall, this study presents a synergistic interfacial and topological enhancement strategy for constructing nanomaterial-based composites with inherited properties from the nanoscale building blocks to the macroscale structural material.
Topics & Concepts
Materials scienceNanofiberNanomaterialsAramidMicroscale chemistryComposite materialNanoscopic scaleToughnessUltimate tensile strengthMicrostructurePolymerNanotechnologyFiberMathematics educationMathematicsCalcium Carbonate Crystallization and InhibitionPolymer composites and self-healingSupramolecular Self-Assembly in Materials