Download This PaperSoft Yet Powerful: Nano-Coatings Preserve Transfer Film Integrity
27 Pages Posted: 5 Sep 2024
Abstract
Conventional carbon fiber (CF) surface modification typically relies on harsh chemical oxidation or costly physical radiation, which is not only technically challenging but may also weaken the intrinsic bulk fiber properties. Contrarily, self-assembly employs intermolecular forces to functionalize CF surfaces in a careful, controlled manner. A solvent-induced strategy was employed to construct a soft, organic nano-coating using SDS@2β-CD nanosheets (SCD) of approximately 50 nm thick on a CF surface. The modified CFs (CF-SCD) were combined with polytetrafluoroethylene (PTFE) fibers and embedded into EP resin to prepare the CF-reinforced self-lubricating composites (CFRLCs). The composites displayed notably enhanced tribological properties, as well as excellent interfacial interaction between the fibers and the matrix. This indicated that the soft nano-coating on the CFs effectively prevented the hard particles from scratching the lubricant film on moving surfaces. Consequently, the composites exhibited a low coefficient of friction (COF) (0.046) and wear rate (9.69 × 10-8 mm3/(N·m)). The strategy proposed in this study provided a novel, efficient, and eco-friendly modification approach for strengthening the integrated CFRLC structural components, which showed significant promise for engineering applications.
Keywords: Self-assembly, nanosheets, carbon fiber, self-lubricating, wear resistance
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