The use of microcapsules containing healing agents, which can serve as source of self-healing for coatings, was investigated. The appropriate self-repairing coatings are designed to be used for heavy-duty corrosion protection or for the protection of moisture-sensitive substrates like wood. Microcapsules based on thermoset resins (urea–formaldehyde and melamine–formaldehyde) which contained components of different chemical natures (resins or inhibitors) were fabricated using emulsion techniques. The subsequent characterization included optical, fluorescence, and electron microscopy as well as adapted microindentation techniques to determine capsule break forces. Different model coatings were formulated making use of varying amounts of healing agent-charged microcapsules. The coated samples were then injured under controlled conditions (by Erichsen cupping in the case of steel, by simulated hail in the case of wood) and then subjected to salt spray testing (natural and accelerated), weathering, or even real-life exposure, always in comparison with a blank. The results obtained demonstrate the superiority of microcapsule-based self-healing coatings compared to classical protection formulations, and appropriate coating systems have in the meantime been successfully brought to the market
Three-dimensional computational fluid dynamics simulation software provides deeper insight into dye liquor flow through a yarn bobbin and a dyeing vessel in a textile dyeing machine. In these calculations, the flow model is based on the Navier-Stokes equations for turbulent incompressible liquids, in which the yam package is described by a porosity model with the assumption of linear flow through the bobbins. The simulation results provide information on the static pressure and velocity distribution at every part of the dyeing vessel, which agrees with the experimental data obtained from static pressure measurements and from flow profiles in a polyester yam bobbin after treatment in a high temperature water dyeing plant.
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