Study on the fluidity of AZ91+xRE magnesium alloy

Abstract

Influence of section thickness, pouring temperature, mould temperature and content of rare earth (RE) element on the fluidity of AZ91 magnesium alloy has been studied through fluidity specimens with different section thickness cast in metal mould. The results show that the relation curve of filling length versus section thickness can be divided into two parts: (i) the filling length in the thin section increases slowly with increasing section thickness, after a critical thickness; and (ii) the filling length in the thick section increases rapidly with increasing section thickness. Elevating the pouring temperature has little influence on the fluidity in the thin section, but increases the filling length in the thick section remarkably. As mould temperature increases, the fluidity in the thin section increases a little, but the fluidity in the thick section rapidly increases. As RE content increases, the fluidity in the thin section changes from increasing to decreasing, and the fluidity in the thick section changes from increasing to decreasing, and to increasing again. Moreover, the critical thickness separating region of thin and thickness section behavior moves to higher values.