Effect of Glass Fibers with Different Surface Properties on the Morphology and Properties of Polyamide 6/Poly(butylene terephthalate) Blends

Abstract

The morphology and properties of polyamide 6 (PA6)/poly­(butylene terephthalate) (PBT) blends filled by three types of glass fibers (GF) with different surface properties were investigated. The GF were unmodified or surface-modified for PA6 or PBT, denoted as GF­(Pris), GF­(PA6), and GF­(PBT), respectively. The incorporation of 15 wt % of GF with different surface properties all led to a transition from a cocontinuous (at least a part of each phase penetrates the whole volume in a coherent and continuous manner) to a sea-island (separated domains dispersed in a continuous matrix) morphology with PA6 being the matrix phase when PA6/PBT equaled 45/55. GF­(Pris) was always encapsulated by PA6, while the encapsulating layers on the surfaces of GF­(PA6) and GF­(PBT) changed from PBT to PA6 with increasing PA6 contents. The morphological changes induced by GF caused more PBT to crystallize at a lower temperature and enhanced the alkali tolerance of the blend significantly