Structural Implications of the Elliptical Form of Small-Angle Reflections in Oriented Semicrystalline Polymers

The intensity maxima of lamellar reflections in small-angle scattering patterns from uniaxially oriented polymers such as fibers do not generally fall on a straight layer line or on a circular arc. The shape of the reflection can be analyzed by measuring the periodicity L φ of the lamellar planes as...

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Veröffentlicht in:Macromolecules 2000-02, Vol.33 (3), p.1012-1021
Hauptverfasser: Murthy, N. S, Grubb, D. T, Zero, K
Format: Artikel
Sprache:eng
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Zusammenfassung:The intensity maxima of lamellar reflections in small-angle scattering patterns from uniaxially oriented polymers such as fibers do not generally fall on a straight layer line or on a circular arc. The shape of the reflection can be analyzed by measuring the periodicity L φ of the lamellar planes as a function of the angle φ between the reflection and z. L φ is measured parallel to the fiber axis z. The data give a straight line in a plot of L φ 2 vs tan2 φ. This shows that the reflection is elliptical and provides a basis for fitting small-angle patterns in an elliptical coordinate system using few parameters. Further analysis of patterns that extend to large values of φ shows that an elliptical fit is not merely a convenience; it is also the best fit. Many possible structures could cause the lamellar reflection to lie on a curve, but few models predict an ellipse. The simplest is affine deformation of the lamellar structure. Recognizing that a single lamellar population will give reflections of an elliptical form allows populations of lamellae to be distinguished even when the reflections overlap strongly, with long spacings L M different by only 2−8%. This permits a greater understanding of the processes of fiber drawing and annealing.
ISSN:0024-9297
1520-5835
DOI:10.1021/ma9911501