3D fibrillated network of compatibilized linear low density polyethylene/polyamide with high melt strength and superior foamability

Abstract

A new, efficient and easy to scale up approach to enhance the melt strength of linear low density polyethylene (LLDPE) through high aspect ratio polyamide (PA) fibrillar inclusions is presented. For the first time, the effect of the incorporation of compatibilizer in the blends on the efficiency of the in-situ fibrillation approach to improve rheological properties and foamability is discussed. The morphological analysis indicates high aspect ratio fibers were achieved for both compatibilized and non-compatibilized systems. Also, very fine fibers with nano-scale cross-sectional diameter were achieved for compatibilized blends. Comparable rheological responses and substantial improvement of the foaming ability with superior foam morphology and high cell density was obtained, for both fibrillated blends with and without compatibilizer. Investigation of the crystallinity of the blends through DSC and WAXD indicated that bimodal melting and crystallization of LLDPE is remarkably affected by the presence of PA inclusions, particularly for the blends containing fibrillated PA. Further investigation of the crystallinity through 2D-SAXS revealed formation of shish-kebab crystalline structures as a result of drawing and shear induced crystallization.