Preparation and viscoelasticity of anisotropic polyurethane composites filled with TiO 2 particles

An anisotropic structure arranged by fillers is an effective method to make composites possess special properties, but the conventional particle‐reinforced polyurethane (PU) composites usually have an isotropic 0‐3 structure. In this study, a precipitation method was used to synthesize TiO 2 particles. The particles were dispersed in a PU matrix, and the structures were observed by scanning electron microscopy. The results indicate that in the presence of an applied electric field, 1‐3‐like composites with TiO 2 particles in an oriented arrangement were prepared, while 0‐3 PU composites were prepared without an electric field. Dynamic viscoelasticity test results show that the PU‐TiO 2 composites with a 1‐3‐like structure have a higher storage and loss modulus. The creep properties of these two kinds of PU composites were measured and further fitted with a Findley power law and Weibull model. It was found that the creep resistance and recovery properties of the PU composites were enhanced by the anisotropic structures of the filler particles in the matrix. © 2019 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2019 , 136 , 47450.