Abstract

The aim of this work was to study the effect of zinc content on biodegradable binary magnesium-zinc (Mg-Zn) alloy synthesized using mechanical alloying. A powder mixture of Mg with the different content of Zn (3, 5, 10 and 15 wt%) was mechanically milled at constant rotational speed of 250 rpm for 5 h. At low Zn content up to 5 wt%, the Mg-Zn alloy mainly consisted of α-Mg matrix. However, with higher addition of Zn from 10 wt% and further, the intensities of α-Mg peaks decreased and secondary phase of γ-MgZn was identified as the solid solubility limit of Zn in Mg was only 6.2 wt% at 340 °C. The sintered density and microhardness of the alloy increased as a function of Zn content due to its higher elemental density, thus restraining the growth of crystal grains and refine the crystal grains of Mg.

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