Morphology of a Phase Separated and a Molecular Composite 30%PBT/ 70%ABPBI Polymer Blend

Abstract

Scanning electron microscopy (SEM), transmission electron microscopy (TEM), analytical electron microscopy (AEM), and wide-angle x-ray diffraction (WAXD) were used to examine a polymeric blend of rigid-rod poly(p-phenylene benzobisthiazole), PBT, and semi-flexible coil poly(2,5(6)benzimidazole), ABPBI. When fiber and film were processed from a solution where the total polymer concentration of a 30% PBT/70% ABPBI blend was greater than a critical concentration, large-scale phase separation occurred and SEM images showed 0.1 micron to 4 micron ellipsoidal particles in a ductile matrix. TEM and AEM indicated these ellipsoids were chiefly composed of aggregates of well-oriented PBT crystallites with lateral dimensions of about 10 nm, while the matrix material was chiefly ABPBI. If the total polymer concentration of a 30% PBT/70% ABPBI blend was less than a critical concentration, the solution was optically homogeneous. During processing of the homogeneous solution into fiber and film, large-scale phase separation was inhibited by rapid coagulation in a water bath. Fiber and film processed in this manner did not show any large-scale phase separation when examined by SEM and TEM. After heat treatment this fiber and film were found to contain crystallites with lateral dimensions no larger than 3 nm, as determined by WAXD and TEM. Selected area electron diffraction and WAXD indicated crystallites of both PBT and ABPBI were present.

Document Details

Document Type

Technical Report

Publication Date

Mar 01, 1986

Accession Number

ADA167981

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