Effect of equal channel angular pressing on microstructure, texture, and high-cycle fatigue performance of wrought magnesium alloys

Julia Müller; Miloš Janeček; Sangbong Yi; Jakub Čížek; Lothar Wagner

doi:10.3139/146.110101

Published by De Gruyter June 11, 2013

Effect of equal channel angular pressing on microstructure, texture, and high-cycle fatigue performance of wrought magnesium alloys

Julia Müller , Miloš Janeček , Sangbong Yi , Jakub Čížek and Lothar Wagner

From the journal International Journal of Materials Research

https://doi.org/10.3139/146.110101

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Abstract

The magnesium alloys AZ80 und ZK60 received from Dead Sea Magnesium in as-cast conditions were extruded at T = 350 °C using an extrusion ratio of ER = 22. The extruded bars were severely plastically deformed by equal channel angular pressing (ECAP). Multiple ECAP processing up to 8 passes was done. The ECAP-induced changes in grain size and grain size distribution were measured by transmission electron microscopy while changes in dislocation density and crystallographic textures were determined by positron annihilation spectroscopy and X-ray diffraction analysis, respectively. The strain induced by ECAP was found to influence the microstructural characteristics, in particular the grain size, the dislocation density, and the crystallographic texture, which in turn enhance (or deteriorate) the mechanical or fatigue response of both alloys.

Keywords: Magnesium alloys; AZ80; ZK60; HCF; Positron lifetime spectroscopy

* Correspondence address, Dr. Miloš Janeček, Charles University, Department of Physics of Materials, Ke Karlovu 5, CZ-121 16 Prague 2, Czech Republic, Tel.: +420 2 2191 1458, Fax: +420 2 2191 1490, E-mail: janecek@met.mff.cuni.cz

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Received: 2008-8-28

Accepted: 2009-4-3

Published Online: 2013-06-11

Published in Print: 2009-06-01

Effect of equal channel angular pressing on microstructure, texture, and high-cycle fatigue performance of wrought magnesium alloys

Abstract

References

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