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In-Situ X-Ray Diffraction Study of Thermal Stability of Cu and Cu-Zr Samples Processed by ECAP

Publication at Faculty of Mathematics and Physics |
2013

Abstract

X-ray diffraction (XRD) studies of ECAP (equal-channel angular pressed) Cu and Cu-Zr were performed after annealing and by in-situ measurements in XRD high-temperature chamber. Significant dependence of thermal stability of fine ECAP microstructure on number of passes was found.

In-situ measurements were focused not only on temperature dependence but also on time evolution of the diffraction line profiles. Evaluation in terms of dislocation densities, correlation and crystallite size and its distribution was performed by our own software MSTRUCT developed for total powder diffraction pattern fitting.

Abnormal growth of some grains with annealing is well-known for copper and leads to the creation of bimodal microstructure. Therefore a special care must be given to the evaluation and a model of two Cu components (larger and smaller crystallites) was fitted to the data if an indication of some crystallite growth appears either in the XRD line profile shape or in two-dimensional diffraction patterns.