• Title of article

    Surface morphology and property of UV‑cured flm containing photopolymerizable polysiloxane‑based nanogels with initiating capability

  • Author/Authors

    Wei, Meng College of Science - Beijing University of Chemical Technology - Republic of China , Han, Jun‑yi College of Science - Beijing University of Chemical Technology - Republic of China , Gao, Yan‑jing College of Science - Beijing University of Chemical Technology - Republic of China , Jiang, Sheng‑ling College of Mechanical and Electrical Engineering - Beijing University of Chemical Technolog - People’s Republic of China , Sun, Fang College of Science - Beijing University of Chemical Technology - Republic of China

  • Pages
    9
  • From page
    281
  • To page
    289
  • Abstract
    We have synthesized a kind of photopolymerizable polysiloxane-based nanogel with intramolecular-initiating capability based on 4-hydroxybenzophenone (HBP), isobornyl methacrylate (IBMA), urethane dimethacrylate (UDMA) and 2-isocyanatoethyl methacrylate (IEM) and methacrylate-modifed polysiloxane (PSMA). The nanogel possesses low migration of photolysis fragments and can dramatically reduce the volumetric shrinkage. In this work, the infuences of the nanogels on the properties of UV-cured flms prepared with nanogel and triethylene glycol dimethacrylate (TEGDMA) including rheology, glass transition temperature (Tg), tensile property, thermostability, surface morphology and surface energy of the UV-cured flms were systematically studied. The results show that with the addition of nanogels at diferent loading levels, the viscosity increased fast and reached up to 9600 mPa s. The increasing the content of nanogels in formulations resulted in the enhancement of thermal stability and elongation at break of the UV-cured flms, and the formation of a more homogeneous network. Moreover, by adding the nanogels, the tensile strength of the cured flms and surface energy declined. The enrichment of the nanogel on the surface can generate a more hydrophobic surface. Thus, the nanogels have potentially practical value in tuning structure and properties of polymer networks. Graphic abstract The polymerizable nanogels, which can initiate photopolymerization and reduce volumetric shrinkage, have the remarkable capability in decreasing surface energy, enhancing thermal stability and elongation at break, and homogenizing structure of polymer networks.
  • Keywords
    Nanogel , Photopolymerization , Mechanical property , Tenacity
  • Journal title
    International Journal of Industrial Chemistry (IJIC)
  • Serial Year
    2019
  • Record number

    2500984