Pure-calcium-line-adopted high-purity nickel or high-temperature alloy smelting method
A high-temperature alloy and smelting method technology, which is applied in the field of high-purity nickel or high-temperature alloy smelting and high-purity nickel-based superalloy smelting, can solve the problems of alloy pollution and high cost, and achieve the effect of reducing smelting cost, low cost and reasonable addition process
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Embodiment 1
[0027] Pouring 10kg ingot, the ingot material is K417G nickel-based superalloy (composition as shown in Table 1), adopts vacuum induction furnace smelting and common alloy material, and induction furnace adopts magnesia crucible, and distance furnace mouth is 100mm after molten metal melting, The smelting process requires a vacuum of 30Pa. After the metal material is melted, keep the vacuum and boil the molten metal for 10 minutes under the condition of 10Pa, and the temperature is 1500°C. The content can be reduced to 15ppm. Cool down the conjunctiva, when the oxygen content is 10ppm, and the temperature is 1350°C, feed the self-made pure calcium wire into the superalloy melt (the structure of the calcium wire is as follows figure 1 As shown, with pure calcium wire as the inner core, the outer skin adopts pure nickel, the diameter of the self-made pure calcium wire inner core is 6mm, the outer diameter of the outer skin is 12mm, and the outer skin material is a superalloy), ...
Embodiment 2
[0031] Pouring 500kg ingot, the ingot material is K444 nickel-based superalloy (composition as shown in Table 2), adopts vacuum induction furnace smelting and common alloy material, and induction furnace adopts alumina crucible, and the molten metal is 300mm apart from furnace mouth after melting, The smelting process requires a vacuum of 100Pa. After the metal material is melted, the molten metal is boiled for 30 minutes under the condition of vacuum degree of 0.05Pa, and the temperature is 1580°C. The oxygen content can be reduced to 15ppm. To cool down the conjunctiva, when the oxygen content is 8ppm, when the temperature is 1450°C, add Ti, Al and other elements to the superalloy melt, and send it into the self-made pure calcium wire (the structure of the calcium wire is as follows figure 2 As shown, the pure calcium wire is used as the inner core, and the outer skin is made of a hollow rod with the same composition as the smelted high-temperature alloy. The diameter of t...
Embodiment 3
[0036] Pouring 25kg ingot, the ingot material is K417G nickel-based superalloy (composition as shown in Table 1), adopts vacuum induction furnace smelting and common alloy material, and induction furnace adopts magnesia crucible, and the molten metal is 150mm away from furnace mouth after melting, The smelting process requires a vacuum of 10Pa. After the metal material is melted, keep the vacuum and boil the molten metal for 10 minutes under the condition of 5Pa, and the temperature is 1600°C. The content can be reduced to 15ppm. To cool down the conjunctiva, when the oxygen content is 9ppm, the temperature is 1400°C and the self-made pure calcium wire is fed into the superalloy melt (the structure of the calcium wire is as follows figure 1 As shown, with pure calcium wire as the inner core, the outer skin adopts pure nickel, the diameter of the self-made pure calcium wire inner core is 6mm, the outer diameter of the outer skin is 12mm, and the outer skin material is pure nic...
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