Determination of the Orientation of Crystallites in PET Fibres

Determination of the Orientation of Crystallites in PET Fibres

A method for the determination of the average angle of orientation of crystallites φ from the azimuthal record of the meridional reflection of the 1 05 diatropic plane for PET fibres is widely used. The 1 05 reflection is the closest to the meridian and the normal to this plane making an angle of ap...

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Bibliographic Details
Published in:International journal of polymeric materials Vol. 47; no. 4; pp. 681 - 691
Main Authors: Smole, M. Sfiligoj, Zipper, P.
Format: Journal Article Conference Proceeding
Language:English
Published: Philadelphia, PA Taylor & Francis Group 01-10-2000
Taylor & Francis
Subjects:
Applied sciences
Exact sciences and technology
Fibers and threads
Forms of application and semi-finished materials
geometry of measurement
meridional (- 105) reflection
orientation of crystallites
PET fibres
Polymer industry, paints, wood
supercritical CO2 fluid dyeing
Technology of polymers
WAXS
wide angle x-ray scattering
x-ray analysis
Ethylene terephthalate polymer
Structure processing relationship
Dyeing
Crystal orientation
Medium effect
Chemical treatment
Synthetic fiber
X ray scattering
Measurement method
Experimental study
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Summary:A method for the determination of the average angle of orientation of crystallites φ from the azimuthal record of the meridional reflection of the 1 05 diatropic plane for PET fibres is widely used. The 1 05 reflection is the closest to the meridian and the normal to this plane making an angle of approximately 10[ddot] with the c axis. The intensity distribution measured by this method reflects the distribution of the 1 05 plane normals and therefore it comprises: the distribution of the 1 05 plane normals relative to the c crystallographic axis, the distribution of the crystallites relative to the reference fibre axis and the tilted orientation; that is the molecular chain axis inclined by some degrees with respect to the fibre axis. By the studying of the diffraction intensity distribution from the 1 05 diatropic plane this particularly should be taken into account. The sub-meridional ( 1 05) reflection was scanned in two different geometries: omega and chi scan. Supercritical CO 2 fluid as an alternative dyeing medium changes the fibre structure to a certain extent in dependence on the treatment temperature and pressure used. Therefore the changes of crystalline orientation in poly(etbylene terephthalate) (PET) fibres as brought about under the influence of supercritical CO 2 fluid were investigated.
ISSN:0091-4037
1563-535X
DOI:10.1080/00914030008031323