Distributions of Domain Size, Lattice Distortion and Dislocation Density in Tubes of Zr-Based Alloys Studied by a Method Combining X-Ray Line Profile Analysis with Texture Measurements

Yuriy Perlovich; Margarita Isaenkova

doi:10.4028/www.scientific.net/MSF.443-444.255

Paper Titles

On the Development of Copper Textures – Neutron Diffraction Control over a Period of 12 Years –
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Texture Analysis of Nanostructured Metals Produced by Severe Plastic Deformation
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In Situ and Ex Situ Observation of the Ordering Kinetics in Ni_1.50Sn
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Small-Angle Neutron Scattering in F.C.C. Fe-Ni and Fe-Ni-C Alloys
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Distributions of Domain Size, Lattice Distortion and Dislocation Density in Tubes of Zr-Based Alloys Studied by a Method Combining X-Ray Line Profile Analysis with Texture Measurements
p.255

New Principles of the Substructure Development in Metal Materials under Plastic Deformation, Revealed by Advanced X-Ray Methods
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Neutron Diffraction Study on Intermetallic Er₅Mg₂₄ and Tm₅Mg₂₄
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Quantitative Texture Analysis and Phase Fraction of Nickel-Titanium Shape Memory Alloys by Means of Neutron Diffraction
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Structure Relations and XRD Patterns of the Disorder-Order Transition of Metastable RE₂TM₁₇ Alloys
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Distributions of Domain Size, Lattice Distortion and Dislocation Density in Tubes of Zr-Based Alloys Studied by a Method Combining X-Ray Line Profile Analysis with Texture Measurements

Abstract:

The distributions of substructure parameters for tubes of Zr-based alloys were constructed by use of the X-ray method of Generalized Pole Figures, combining X-ray line analysis and texture measurement. Obtained distributions cover α-Zr crystallites of all orientations and give the fullest description of substructure features of the studied tubes. The interconnection of different substructure parameters are analyzed.