Semi-solid slurry preparation method of rare earth magnesium alloy
A technology of semi-solid slurry and rare earth magnesium, which is applied in the field of semi-solid forming of metal materials, to achieve the effects of reducing oxide inclusions, reducing costs, improving efficiency and cost
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Embodiment 1
[0054] This embodiment relates to a kind of rare earth magnesium alloy Mg-11wt.%Y-4wt.Gd%. The melting and refining process is as follows: all the tools in contact with the alloy melt are painted in advance, and the tools, charge, refining agent and sampling copper mold are all in the Dry at 180°C for more than 3 hours. Turn on the resistance furnace, preheat the stainless steel crucible to dark red, add magnesium ingots, and start feeding CO2+SF6 protective gas with a volume ratio of 100:1 at 300°C until the casting work is completed. Raise the temperature of the crucible resistance furnace to 700°C until the pure magnesium is completely melted, and then adjust the temperature to 720°C-750°C. The magnesium in the alloy smelting base material with this composition is pure magnesium with a purity of 99%, gadolinium and yttrium are respectively added in the form of a Mg-90wt.% Gd master alloy and a Mg-25wt.% Y master alloy. After each master alloy is melted, the alloy melt is s...
Embodiment 2
[0059] This embodiment relates to a rare earth magnesium alloy Mg-10wt.%Gd-3wt.%Y. The melting and refining process is as follows: all tools in contact with the alloy melt are painted in advance, and the tools, charge, refining agent, and sampling copper mold are all in the Dry at 180°C for more than 3 hours. Turn on the resistance furnace, preheat the stainless steel crucible to dark red, add magnesium ingots, and start feeding CO with a volume ratio of 100:1 at 300°C 2 +SF 6 Shielding gas until the casting work is completed. Raise the temperature of the crucible resistance furnace to 700°C until the pure magnesium is completely melted, and then adjust the temperature to 720°C-750°C. The magnesium in the alloy smelting base material with this composition is pure magnesium with a purity of 99%, gadolinium and yttrium are respectively added in the form of a Mg-90wt.% Gd master alloy and a Mg-25wt.% Y master alloy. After each master alloy is melted, the alloy melt is stirred ...
Embodiment 3
[0064] This embodiment relates to a rare earth magnesium alloy Mg-10wt.%Gd-0.5wt.%Ca. The melting and refining process is as follows: all tools in contact with the alloy melt are painted in advance, and the tools, charge, refining agent, and sampling copper mold are all Dry at 180°C for more than 3 hours. Turn on the resistance furnace, preheat the stainless steel crucible to dark red, add magnesium ingots, and start feeding CO with a volume ratio of 100:1 at 300°C 2 +SF 6 Shielding gas until the casting work is completed. Raise the temperature of the crucible resistance furnace to 700°C until the pure magnesium is completely melted, and then adjust the temperature to 720°C-750°C. The magnesium used in the alloy smelting base metal of this composition is pure magnesium with a purity of 99%, gadolinium is added in the form of Mg-90wt.%Gd master alloy, and calcium is added with 99.9% pure calcium (use filter paper to absorb the surface before adding pure calcium. Kerosene, us...
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