X-ray diffraction line broadening due to dislocations in non-cubic materials. I. General considerations and the case of elastic isotropy applied to hexagonal crystals
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Media type:
E-Article
Title:
X-ray diffraction line broadening due to dislocations in non-cubic materials. I. General considerations and the case of elastic isotropy applied to hexagonal crystals
Contributor:
Klimanek, P.;
Kužel, R.
imprint:
International Union of Crystallography (IUCr), 1988
Published in:Journal of Applied Crystallography
Language:
Not determined
DOI:
10.1107/s0021889887009580
ISSN:
0021-8898
Origination:
Footnote:
Description:
<jats:p>Use is made of the theory of dislocation-induced X-ray diffraction line broadening in the form presented by Krivoglaz, Martynenko & Ryaboshapka [<jats:italic>Fiz. Metall. Metalloved.</jats:italic> (1983), <jats:bold>55</jats:bold>, 5–171 to express the so-called orientation factors occurring in the relations of diffraction profile parameters (<jats:italic>e.g.</jats:italic> Fourier coefficients, line widths) in a form which systematically takes into account both the lattice geometry and the elastic behaviour of the scattering crystals. The formalism can be used, in principle, for any materials and types of dislocations. In the case of elastically isotropic media the orientation factors can be described by analytical expressions. The application of the formalism is demonstrated in some detail for various slip systems in hexagonal polycrystals with random orientation of grains.</jats:p>