Метод обробки даних рентгенівської дифракції для багатофазних матеріалів з низьким вмістом фаз

Метод обробки даних рентгенівської дифракції для багатофазних матеріалів з низьким вмістом фаз

Amorphous, glass, and glass-ceramic materials practically always include a significant number (more than eight) of crystalline phases, with the contents of the latter ranging from a few wt.% to several hundredths or tenths of wt.%. The study of such materials using the method of X-ray phase analysis...

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Bibliographische Detailangaben
Datum:2019
Hauptverfasser: Skorbun, A. D., Gabielkov, S. V., Zhyganiuk, I. V., Kudlai, V. G., Parkhomchuk, P. E., Chikolovets, S. A.
Format: Artikel
Sprache:English
Ukrainian
Veröffentlicht: Publishing house "Academperiodika" 2019
Schlagworte:
комп’ютерна статистика
тест перестановок
статистичнi методи аналiзу
кристалiчнi фази
рентгенiвськi лiнiї
рентгенiвський фазовий та кiлькiсний аналiз
лавоподiбнi паливовмiснi матерiали
кварц
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Online Zugang:https://ujp.bitp.kiev.ua/index.php/ujp/article/view/2019370
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Назва журналу:Ukrainian Journal of Physics

Institution

Ukrainian Journal of Physics
Beschreibung
Zusammenfassung:Amorphous, glass, and glass-ceramic materials practically always include a significant number (more than eight) of crystalline phases, with the contents of the latter ranging from a few wt.% to several hundredths or tenths of wt.%. The study of such materials using the method of X-ray phase analysis faces difficulties, when determining the phase structure. In this work, we will develop a method for the analysis of the diffraction patterns of such materials, when diffraction patterns include X-ray lines, whose intensities are at the noise level. The identification of lines is based on the search for correlations between the experimental and test lines and the verification of the coincidence making use of statistical methods (computer statistics). The method is tested on the specimens of a-quartz, which are often used as standard ones, and applied to analyze lava-like fuel-containing materials from the destroyed Chornobyl NPP Unit 4. It is shown that the developed technique allows X-ray lines to be identified, if the contents of separate phases is not less than 0.1 wt.%. The method also significantly enhances a capability to determine the phase contents quantitatively on the basis of lines with low intensities.

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