Cailiao gongcheng (Sep 2024)
Research progress in effects of alloying element Sn on microstructures and properties of Mg alloys
Abstract
Pure Mg has advantages of low density, good shock absorption performance and good biocompatibility, but its strength is low. Alloying is an important method to modify microstructure and properties of pure Mg. Sn has characteristics of low melting point, high eutectic temperature with Mg, high solid solubility in Mg, stable chemical properties and large output, which is appropriate to be an alloying element. The effects of alloying element Sn on microstructures and properties of Mg alloys were reviewed in this paper. Sn enriches at the front of the solid-liquid interface, dissolves in Mg matrix, reduces the ratio of critical resolved shear stress value of the pyramidal plane to that of the basal plane, and elevates the electric potential of Mg matrix. Mg2Sn precipitates can hinder dislocation and grain boundary movement, and form galvanic corrosion cells with Mg matrix. Therefore, effects of Sn addition include grain refinement, age hardening and strengthening, improving plasticity, accelerating or reducing corrosion rate, enhancing discharge efficiency and discharge potential. At present, the main problems restricting the development of Mg-Sn alloys are slow aging, low hardness and strength. In the future, endeavors should be made to develop rapidly age-hardenable Mg-Sn alloys with high strengths, wrought Sn-containing Mg alloys with good ductility, and Sn-containing structural-functional Mg alloys.
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