Morphology of amorphous polyethylene terephthalate

Abstract

A number of years ago the morphology of amorphous polyethylene terephthalate (PET) quenched from the melt at 280°C into ice water and cast from solution was reported [1]. A nodular structure ca. 75 Å in diameter was described, the electron diffraction pattern consisting of a single diffuse ring. Based on brightfield and dark-field diffraction contrast micrographs, which showed the presence of ordered domains of similar size, it was proposed that the molecules in amorphous PET both above and below T_g are locally aligned and have a nematic liquid-crystal-like arrangment, in domains of the size of the nodules. The proposal of order in the amorphous material above T_g was based on the assumption that the quenching was sufficiently rapid that the morphology observed in the glass reflected that present above T_g at the instant of quenching; in the melt itself the ordered domains were presumed to undergo continuous fluctuation.