Poly(butylene terephthalate) Toughening with Butadiene-Epoxy-Functionalized Methyl Methacrylate Core–Shell Copolymer

Abstract

Butadiene glycidyl methacrylate-functionalized-methyl methacrylate (PB-g-MG) core–shell copolymer was used to toughen poly(butylene terephthalate) (PBT). Fourier transform infrared (FTIR) spectra and torque tests showed that compatibilization reactions took place between the carboxyl and/or hydroxyl groups of PBT and the epoxy groups of PB-g-MG. Phase morphology results showed that the PB-g-MG core–shell particles dispersed in the PBT matrix uniformly. The addition of PB-g-MG significantly improved the mechanical properties of PBT. The elongation at break and the impact strength increased with the increase of PB-g-MG content. SEM results showed that the shear yielding properties of the PBT matrix was the main toughening mechanism. The relationship between complex viscosity and angular frequency of the PBT/PB-g-MG blends indicated that the melt viscosity was higher than that of pure PBT.