Diffusion limited behaviour of hydrophobised thin UV-curable nanocomposite coatings against model electrolyte

Abstract: Two different approaches were used to modify a UV-curing resin based on polyester chemistry, namely molecular and nano-particular approaches. In the molecular approach a hydrophobic compound, glycidyl neodecanoate, was reacted with the resin and was fixed on the polymer backbone. In the nano-particular approach a nano-clay was used to modify the resin in a physical manner. The electrochemical properties of the coating films were investigated using electrochemical impedance spectroscopy. In all cases a broadeni… Show more

“…7). The impedance response revealed initial behaviour that was dominated by the coating capacitance at high frequencies and coating resistance in the low frequency region, [19][20][21] which suggested the coatings were good shielding layers to resist propagation of electrolyte.…”

Effect of different structured TiO₂particle on anticorrosion properties of waterborne epoxy coatings

“…7). The impedance response revealed initial behaviour that was dominated by the coating capacitance at high frequencies and coating resistance in the low frequency region, [19][20][21] which suggested the coatings were good shielding layers to resist propagation of electrolyte.…”

Effect of different structured TiO₂particle on anticorrosion properties of waterborne epoxy coatings

“…Rastegar and co-workers 36 used two different approac hes to modify an ultraviolet-curing uv-curing resin based on polyester chemistry,namely,molecular and nanopa rti cular approaches.The electrochemical properties of the coating films were investigated using EIS. In all cases, a broadening of the complex plane graph in the direction of real impedance axis was observed.…”

Comparison of corrosion protection of normal and galvanised steel coated by cathodic electrocoatings using EIS and salt spray tests

Enhanced Thermal Stability and Corrosion Resistance of UV-Curing Epoxy Acrylate Coatings by Incorporating Mica