Synthesis and properties of high-solids hybrid materials obtained from epoxy functional urethanes and siloxanes

•A series of hybrid high-solids poly(urethane–siloxane) materials was obtained.•The structure of starting materials was confirmed by IR and NMR spectroscopy.•The effect of siloxane on surface properties of hybrid coatings was studied.•The crosslinked poly(urethane–siloxane) materials reveal phase separation. In this work series of novel high-solids crosslinked hybrid networks based on the epoxy-terminated polyurethane prepolymer and the comb-like structure co-poly(dimethyl)(methyl, 3-glycidoxypropyl)siloxane cured with diethylenetriamine, were obtained. The viscosity lowering of epoxy-terminated polyurethane prepolymer with temperature allowed for the preparation of the hybrid systems without using of any solvent. The structure of the obtained poly(urethane–siloxane) thermosets was confirmed by FT-IR spectroscopy. The DSC studies reveal, that the addition of siloxane resulted in the decrease of the glass transition temperature of the hybrid materials. The synthesized poly(urethane–siloxane) networks are hydrophobic, with the free surface energy of 17–31mJ/m2. An increased amount of siloxane resulted in an increase of water contact angle and decrease of degree of water absorption as well as of FSE, which confirms a hydrophobic nature of the employed siloxane. Some properties of obtained hybrid materials based coatings were also studied.