Microstructures and Tensile Mechanical Properties of Mg-9zN-O.6Zr-2Er Magnesium Alloy

"As extruded Mg-9Zn-0.6Zr-2Er magnesium alloys were hot-rolled at 400°C, followed by solution treatment at 400 °c for 1. 5h and artificial aging at 200°C for 10h. Microstructures and tensile mechanical properties of the alloys after hot rolling, solution and aging treatment were examined respectively. Optical micrographs of the as-rolled and as-solution alloys showed fine grain structures, due to the formation of Er-and Zn-bearing compounds at grain boundaries which obviously improved the thermal stability of the alloy. Yield strength as high as about 335 MPa was obtained for the as-rolled alloy, showing that the mechanical properties of the alloy was greatly benefit from the grain refinement and dynamic precipitation of fine MgZn2 during hot rolling. Due to solution heat treatment, vast majority of the Mg-Zn phases dissolved into the matrix, and precipitated out again as fine dispersoid during the subsequent aging, resulting in an enhanced aging-hardening effect.IntroductionWith high specific strength and low density, magnesium alloy has stimulated significant interest for the applications in microelectronics, aerospace and automobile industries. Due to its HCP structure, magnesium alloys exhibit relatively poor strength and ductility. Great efforts have been made to improve the properties of magnesium alloys.Thermo-mechanical processing which combined with subsequent heat treatment can strengthen magnesium alloys due to the strain-hardening mechanism, homogeneous distribution of second particles and grain refinement [1, 2]. However, commercial wrought magnesium alloys have high tendency of grain growth at high temperature due to lack of effective solutions to stabilize the microstructure [3, 4, and 6]. But Magnesium-RE alloys containing high rare earth were reported to have remarkable thermal-stability, Rare earth (RE), such as Y, Nd, Yb, Gd, Ce, were known to form second-phase particles that have higher thermal stability combining with Zn and matrix in Mg[12-17]."