Texture evolution of Mg during high-pressure torsion

Polycrystalline magnesium of 99.8 wt.% purity was subjected to high-pressure torsion (HPT) at room temperature. A special technique was developed in order to enable HPT of Mg up to very high shear strains of 115 and hydrostatic pressures of 4 GPa. The texture development during HPT was investigated...

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Veröffentlicht in:Journal of materials science 2008-12, Vol.43 (23-24), p.7513-7518
Hauptverfasser: Bonarski, B. J., Schafler, E., Mingler, B., Skrotzki, W., Mikulowski, B., Zehetbauer, M. J.
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container_end_page 7518
container_issue 23-24
container_start_page 7513
container_title Journal of materials science
container_volume 43
creator Bonarski, B. J.
Schafler, E.
Mingler, B.
Skrotzki, W.
Mikulowski, B.
Zehetbauer, M. J.
description Polycrystalline magnesium of 99.8 wt.% purity was subjected to high-pressure torsion (HPT) at room temperature. A special technique was developed in order to enable HPT of Mg up to very high shear strains of 115 and hydrostatic pressures of 4 GPa. The texture development during HPT was investigated by systematic X-ray texture measurements. It can be described by a stationary oblique B fibre characteristic of hexagonal metals subjected to simple shear. From the measured shear strain and pressure dependences of the B fibre and from microstructure investigations by TEM, it is concluded that also mechanisms of both dynamic and of static recrystallization contribute to the texture evolution.
doi_str_mv 10.1007/s10853-008-2794-8
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subjects Characterization and Evaluation of Materials
Classical Mechanics
Crystallography and Scattering Methods
Dynamic recrystallization
Evolution
High pressure
Magnesium
Materials Science
Polymer Sciences
Room temperature
Shear strain
Solid Mechanics
Texture
Torsion
Ultrafine-Grained Materials
title Texture evolution of Mg during high-pressure torsion
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