Abstract:
This paper presents the results of a study of the ordering in polyethylene terephthalate (PET)
film induced by Ar8+ ions with an irradiation fluence of 2 × 1012 ions/cm2
, and of the temporal stability
of the induced ordering in the irradiated sample, over a three month period. Immediately after
irradiation, sharp new reflections not seen at lower fluences were observed in X-ray diffraction patterns,
with angular positions of 2 θ = 9–10◦ and 19◦ and variable azimuthal intensities. X-ray reflections,
previously observed at lower fluences, were also seen: at 2 θ = 26◦ and 23◦
, associated with PET
crystallites, and at 2 θ = 5–12◦
, associated with induced ordering in the amorphous zone. Aging of the
irradiated sample led to significant growth of the ordering region in the amorphous zone for angles up
to 2 θ < 15◦
, as well as to dissipation and blurring of the new diffraction reflections at 2 θ = 9–10◦ and
2 θ = 19◦ and the formation of a new diffraction ring reflection in the range 2 θ = 11–16◦
. The azimuthal
distribution of diffraction reflection intensities immediately after irradiation displays a clear oblique
cross located predominantly along lines at angles of π/4 with respect to the direction of the texture
of the PET film, indicating the formation of spiral structures based on the molecular strands of PET.
Our experimental results lead us to conclude that the formation of coherent scattering areas in the
amorphous region at 2 θ < 15◦
is due to intra-chain rotations of benzene-carboxyl subunits of repeat
units of the PET chain molecules interacting with the residual electric field of a single latent track;
whereas the formation of spiral structures is due to the inter-chain interaction of these preordered
asymmetric subunits under the influence of the electric fields from overlapping latent tracks