High Tensile Strength UV-Cured Castor Oil-Based Silicone-Modified Polyurethane Acrylates
Xiaojiao Jiao, Yan Song, Na He, Xiaojia Wang, Ming Huang, Lu Zhang, Xiaocheng Li, Jinchang Xu, Jie Chen, Wenqing Li, Guoqiao Lai, Xilin Hua, Xiongfa Yang
Abstract
High tensile strength UV-cured transparent materials are highly desired in optical devices. In this paper, high tensile strength UV-cured transparent castor oil-based polyurethane acrylates (PUAs) with a very high transmittance over 95% (400-800 nm) were prepared from UV-curable castor oil-based polyurethane acrylates (CO-PUAs) and mercapto silicone-containing hyperbranched polymers (HBPSHs) under UV irradiation. The tensile strengths of UV-cured transparent castor oil-based PUAs can reach 12.49 MPa, which is obviously higher than that of UV-cured CO-PUAs reported previously (0.7-10.20 MPa). The chemical structure of HBPSHs will play an important role in the mechanical performance of UV-cured silicone-modified materials, and it can be concluded that the more rigid the units of α,β-dihydroxyl derivatives used in the fabrication of HBPSHs are, the higher the mechanical strength and pencil hardness of the UV-cured materials will be.