High petential magnesium alloy sacrificial anode material and its manufacturing method
A sacrificial anode and magnesium alloy technology, applied in the field of high-potential casting magnesium sacrificial anode materials, can solve the problems of complex manufacturing process, low current efficiency and high production cost, and achieve the effects of simple manufacturing process, low cost and easy industrial production.
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Embodiment approach 1
[0024] The chemical composition (by mass percentage wt %) of high potential magnesium alloy sacrificial anode material is:
[0025] Mn0.500%, Cel.000%, Ca0.010%, Si≤0.050%, Cu≤0.020%, Ni≤0.001%, Fe≤0.030%, and the rest is Mg.
[0026] I. Prepare materials, 1# magnesium ingot 88%, electrolytic manganese 4%, Mg-Ca (containing Ca20%) master alloy 5% and Mg-RE (containing Ce50%) master alloy 3% and carry out preheating baking; II. Magnesium in SF 6 +CO 2 After melting under gas protection, add electrolytic manganese and NaF flux 5% / (accounting for the manganese addition amount) at 780 ° C, and add appropriate amount of Mg-Ca and Mg-RE master alloy after 10 minutes at 760 ° C for alloying treatment; III .When the temperature of the melt is controlled at 760°C, add 1.00% of the melt weight to the magnesium sacrificial anode self-made special refining agent (calculated as: MgCl 2 20%, KCl25%, BaCl 2 14%, MgF 2 15%, CaF 2 16%, NaF10%) for refining; IV. Stand still for 40 minutes...
Embodiment approach 2
[0029] The chemical composition (by mass percentage wt %) of high potential magnesium alloy sacrificial anode material is:
[0030] Mn2.000%, Ce0.100%, Ca0.500%, Si≤0.050%, Cu≤0.020%, Ni≤0.001%, Fe≤0.030%, and the rest is Mg.
[0031] I. prepare materials, take by weighing 1# magnesium ingot 93%, electrolytic manganese 2%, Mg-Ca3% and Mg-RE master alloy 2% and carry out preheating baking; II. magnesium in SF 6 +CO2 After melting under gas protection, add electrolytic manganese and NaF flux 10% / (amount of manganese added) at 800 ° C, and add appropriate amount of Mg-Ca and Mg-RE master alloy after 15 minutes at 780 ° C for alloying treatment; III. When the temperature of the melt is controlled at 780° C., add 1.50% of the melt weight to the magnesium sacrificial anode self-made special refining agent (in terms of mass percentage wt %: MgCl 2 30%, KCl21%, BaCl 2 11%, MgF 2 10%, CaF 2 20%, NaF8%) for refining; IV. Stand still for 60 minutes, after testing the components to be...
Embodiment approach 3
[0034] The chemical composition (by mass percentage wt %) of high potential magnesium alloy sacrificial anode material is:
[0035] Mn1.000%, Ce0.600%, Cal.000%, Si≤0.050%, Cu≤0.020%, Ni≤0.001%, Fe≤0.030%, and the rest is Mg.
[0036] I. prepare materials, take 97% of 1# magnesium ingot, electrolytic manganese 1%, Mg-Cal% and Mg-RE master alloy 1% and carry out preheating baking; II. put magnesium in SF 6 +CO 2 After melting under gas protection, add electrolytic manganese and NaF flux 7.5% / (amount of manganese added) at 790 ° C, and add appropriate amount of Mg-Ca and Mg-RE master alloy after 12 minutes at 770 ° C for alloying treatment; III. When the temperature of the melt is controlled at 770° C., add 1.25% of the melt weight of the magnesium sacrificial anode self-made special refining agent (in terms of mass percentage wt %: MgCl 2 28%, KCl16%, BaCl 2 18%, MgF 2 20%, CaF 2 12%, NaF6%) for refining; IV. Stand still for 50 minutes, after testing the components to be q...
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