Structural (Super)Plasticity of Magnesium Materials

Zuzanka Trojanova; Zoltan Szaraz; Oksana Padalka; Talant Ryspaev; Pavel Lukac

Zuzanka Trojanova
Zoltan Szaraz
Oksana Padalka
Talant Ryspaev
Pavel Lukac

Keywords: magnesium alloys, magnesium alloy based composite, strain rate sensitivity, electron microscopy, superplasticity, threshold stress

Abstract

Superplastic behaviour of two magnesium alloys QE22 and EZ33 having a grain size of 1μm was studied at a temperature of 420 °C and in the strain rate interval from 1 104 to 1 103 s1. The substructure of samples was analysed by the transmission electron microscope before and after deformation. The substructure of samples exhibits an existence of particles in the grain boundaries. These precipitates are very stable even at high deformation temperature and they are reason for the relatively high ductility of alloys. Observed ductility of the WE54/SiCp composite is much lower due to the existence of ceramic particles in the grain boundaries. They inhibit the grain boundary sliding and are the reason for the cavitations and early fracture of the composite.

Author Biographies

Zuzanka Trojanova

Department of Physics of Materials, Faculty of Mathematics and Physics, Charles University in Prague, Czech Republic

Zoltan Szaraz

Department of Physics of Materials, Faculty of Mathematics and Physics, Charles University in Prague, Czech Republic

Oksana Padalka

Department of Physics of Materials, Faculty of Mathematics and Physics, Charles University in Prague, Czech Republic

Talant Ryspaev

Institute of Welding Engineering and Cutting Manufacturing Processes (ISAF) Clausthal University of Technology, Clausthal-Zellerfeld, Germany and Kyrgyz State Technical University, Kyrgyz-German Technical Institute, Bishkek, Kyrgyzstan

Pavel Lukac

Department of Physics of Materials, Faculty of Mathematics and Physics, Charles University in Prague, Czech Republic

Structural (Super)Plasticity of Magnesium Materials

Abstract

Author Biographies

Journal information