Herstellung und Filmbildungsmechanismus von einer umweltfreundlichen Polyester‐/ Epoxyester‐Spulenbeschichtungsgrundierung

Abstract In this investigation, we have prepared an environmental‐friendly waterborne coil coating primer. Waterborne saturated polyester resin and waterborne epoxy ester resin were selected as the binder resins, and methylated melamine resin and waterborne blocked isocyanate were selected as crosslinking resins. ZnMoO 4 , Zn 3 (PO 4 ) 2 , Zn 3 Al(PO 4 ) 3 , and AlH 2 P 3 O 10 were selected as the anti‐corrosion pigments, and modified nano‐TiO 2 particles and other fillers were also employed to further enhance the primer performance. It was found that when polyester/epoxy ester equals to 7/3; binder resins/curing agent equals to 5/1; pigments/binder resin is in range of 1.4–1.6; additives of each is in amount of 0.5 wt.%–1.5 wt.%, the obtained primer has ideal properties, such as T‐bend performance and qualified adhesion, and the salt spray resistance test can reach 360 h with the primer film thickness in range of 6 μm–7 μm after baking at 224 °C for 45 s. As to the coil coating primer film formation mechanism, Fourier transform infrared spectrum analysis indicates that both the amino resin and blocked isocyanate may react with the binder resin, and such chemical reactions can make them crosslinked to form a stereo‐network film, giving birth to a good overall performance of the obtained primer.