Shape memory effects of polynorbornene modified by in-situ reactive thermoplastic polyurethane

Abstract

Shape memory polymers (SMPs) based on polynorbornene (PNB) was prepared and modified by In-situ reactive thermoplastic polyurethane (TPU). Analysis shows that the TPU formed in PNB matrix slightly decreases Tg of PNB from 24.1 to ca. 23.4, which is beneficial to study the shape memory performance at room temperature. A small amount of TPU can be uniformly dispersed in PNB matrix to form interpenetrating network structure, which can significantly toughen and strengthen PNB. Simultaneously, the interpenetrating network can replace the physical entanglement of part of the PNB, increase the free volume among the molecular chains of PNB, make shape fixing easier, and reduce energy consumption in overcoming friction during the recovery process. Therefore, the PNB/TPU composites have higher shape fixing ratio and recovery ratio than PNB. When the content of TPU in PNB matrix is lower, the interpenetrating network of chain entanglements is formed with no phase separation; therefore, the improvement of shape memory performance is remarkable.