Microstructure, mechanical properties and first-principle analysis of vacuum die-cast Mg-7Al alloy with Sn addition

The influences of Sn element and heat treatment on the microstructure and mechanical properties of Mg-7Al alloy prepared by vacuum die cast (VDC) were studied. The results indicate that alpha-Mg dendrite and Mg17Al12 are refined and new Mg2Sn phase is formed in Mg-7Al alloy with 2 wt% Sn addition. The ultimate tensile strength (sigma(b)) of Mg-7Al alloy increases from 205 to 258 MPa (i.e., a 25 % increase). The mechanical properties of Mg-7Al-2Sn (AT72) alloy are further improved through heat treatment because of the dense microstructures processed by VDC. In particular, the mechanical properties of AT72 alloy are greatly improved after solution treatment at 400 degrees C for 20 h due to solution strengthening of Al and Sn elements and precipitation strengthening of Mg2Sn phases. The precipitation strengthening effect of particle Mg2Sn phases is more apparent due to the decomposition of Mg17Al12 phases. In addition, from the view of microscopic theory, the effect of Sn on mechanical properties of Mg-7Al alloy was discussed by first-principle calculation.

Automated summary

In this study, the influences of Sn element and heat treatment on Mg-7Al alloy prepared by vacuum die cast (VDC) were investigated. It was found that the addition of 2 wt% Sn can increase the ultimate tensile strength of the alloy by 25%, and heat treatment can further improve the mechanical properties of the alloy, especially after solution treatment.