Synthesis, UV-curing behaviors and general properties of acrylate-urethane resins prepared from castor oil-based polyols

Castor oil-based polyols with high OH values are synthesized through the low odor thiol-ene reaction and then are used for preparing UV-curable acrylate-urethane resins (AUCORs). The structure of the AUCORs is confirmed by ¹H NMR and IR. The AUCORs based resins containing diluents can rapidly form cured films under UV light irradiation in air, with a very high gel ratio of over 95 %. The UV-curing dynamics shows that polymerization rate and final acrylate conversion under the N₂ atmosphere both depend on CC bond content, but they are reduced under air due to oxygen inhibition effect.

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All the cured films have good heat stability with an initial decomposition temperature over 300 °C. The cured films can display different T_g within the region of 55–85 °C depending on the crosslink density tuned by the acrylate/urethane content. The urethane content/diluter can affect some general properties of the coating films, for instance water absorption ability, wettability, hardness and adhesion force. Interestingly, the cured films have a very good light transmittance in the visible light region, as high as that of glass slides.

Progress in Organic Coatings Volume 188, March 2024, 108204