Klein / Schwarzer | Texture and Anisotropy of Polycrystals III | Buch | 978-3-908451-78-5 | sack.de

Buch, Englisch, 340 Seiten, Format (B × H): 170 mm x 240 mm, Gewicht: 800 g

Klein / Schwarzer

Texture and Anisotropy of Polycrystals III


Erscheinungsjahr 2010
ISBN: 978-3-908451-78-5
Verlag: Trans Tech Publications

Buch, Englisch, 340 Seiten, Format (B × H): 170 mm x 240 mm, Gewicht: 800 g

ISBN: 978-3-908451-78-5
Verlag: Trans Tech Publications

The great majority of solid-state materials – natural as well as man-made ones – have a polycrystalline structure. They consist of crystallites having various sizes, shapes and crystallographic orientations. Because of the anisotropy of crystal properties, the material as a whole may also be anisotropic if the orientation distribution of the crystallites is not random. Furthermore, because of the differently oriented anisotropies of neighbouring crystals, the material is also micro-inhomogeneous. Macroscopic anisotropy and micro-inhomogeneity are thus fundamental properties of all polycrystalline materials. Therefore, the study of preferred crystal orientations, or crystallographic texture, is of major interest in research and industrial applications. Analysis of the crystal texture is now a well-established tool for quality control and failure analysis in industry, as well as in academic research, because of the ready availability of commercial equipment and refined computer programs.
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Autoren/Hrsg.

Klein, Helmut
Schwarzer, Robert A.

Fachgebiete

Weitere Infos & Material

Committees
Foreword
I. Keynote Lectures
EBSD-Based Dislocation Microscopy
Calculation Methods to Determine Crystallographic Elements: Interface Plane, Surfaces Plane and Twinning Elements, Based on Electron Diffraction Orientation Measurements by SEM and TEM
Two- and Three-Dimensional EBSD Measurement of Dislocation Density in Deformed Structures
Texture Control in Non-Oriented Electrical Steels by Severe Plastic Deformation
Texture versus Residual Deformation Effects in Metal Materials: Principles of Experimental Approach and General Regularities
Application of Electron Backscatter Diffraction to Grain Boundaries
Texture Heterogeneity in ECAP Deformed Copper
II. Contributions to Theory
Development of a 3D Crystal Plasticity Model that Tracks Dislocation Density Evolution
Texture Analysis with MTEX – Free and Open Source Software Toolbox
Structure Stability and Magnetic Properties of Ni2XGa (X = Mn, Fe, Co) Ferromagnetic Shape Memory Alloys by DFT Approach
Magnetic Quantitative Texture Analysis Using Isotropic Thermal Neutron Beams
Influence of the Crystallographic and the Morphological Texture on the Elastic Properties of Fcc Crystal Aggregates
On the Combination of Self-Consistent and Geometric Mean Elements for the Calculation of the Elastic Properties of Textured Multi-Phase Samples
Frequencies of Tilt and Twist Boundaries among Random Grain Boundaries
III. Analysis of Global Texture
Texture/Stress Characteristics of Microstructure Used in Interpreting Deformation Effects of Ti Subjected to ECAP Process
Stress, Texture and Phase Transformation in Titanium Thin Films
Effect of Texture on Damping Behaviour in an AZ80 Alloy
Texture Development in Zr-Based Alloys by High-Temperature Forging as Indicator of Interaction between P

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