Correlation between Ball Milling Parameters and Microstructure Parameters of Nanocopper Using XRD Method
a:2:{s:4:"TYPE";s:4:"HTML";s:4:"TEXT";s:121:"O. BOYTSOV4, F. BERNARD1, E. GAFFET2, Y. CHAMPION3 фтв A. USTINOV4";}
1LRRS UMR 5613 CNRS/Université de Bourgogne - BP 47870 21078 DIJON (France)
E-mail: fbernard@u-bourgogne.fr
2Nanomaterials Research Group UMR 5060 CNRS/UTBM - 90010 Belfort (France) E-mail: eric.gaffet@utbm.fr
3CECM - CNRS, 15 rue Georges Urbain, 94407 Vitry-sur-Seine (France)
E-mail: yannick.champion@glvt-cnrs.fr
4Institute for Metal Physics, Pr. Vernadskogo, 36, Kiev 03142 (Ukraine)
E-mail: ustinov@paton-icebt.kiev.ua
Pages: 131-136
Abstract
The microstructure evolution of Cu-nanostructured powders versus the ball milling conditions was investigated using X-ray diffraction analysis. The characteristics of as-milled Cu powder microstructure in terms of crystallite size, dislocations and twin boundary densities were determined by fitting the simulated X-ray diffraction peak profiles to the experimental ones in order to establish a correlation between the powder microstructure and the ball milling parameters. It was shown that the simulated X-ray diffraction peak profiles agree satisfactorily with the experimental ones taking into account transmission electronic microscopy observations where twin boundaries and dislocations were observed.
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