High-performance rare earth tool steel and preparation method thereof
A tool steel and high-performance technology, which is applied in the field of high-performance rare earth tool steel and its preparation, can solve the problems of high production cost, achieve the effects of increasing strength, improving impact toughness and reducing costs
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Embodiment 1
[0045] Embodiment 1: Preparation of high performance rare earth tool steel
[0046] Its chemical composition and weight percentage are: carbon 0.23%, silicon 0.25%, manganese 0.31%, sulfur 0.002%, phosphorus 0.015%, chromium 1.18%, nickel 2.99%, molybdenum 0.418%, vanadium 0.015%, lanthanum cerium alloy 0.012%, The balance is iron.
[0047](1) Smelting, mixing pure iron, metallic chromium, ferrochromium nitride, electrolytic nickel, ferrovanadium, ferrosilicon, and ferromanganese according to the chemical composition and weight percentage of high-performance rare earth tool steel and putting them into an intermediate frequency induction furnace for melting Molten steel is formed at a temperature of 1590-1650°C for 1 hour. Through the analysis of the spectral composition in front of the furnace, the missing alloy charge is added until the composition requirements of the molten steel are met; (2) Refining. The chemical composition and weight percentage of the lanthanum-cerium a...
Embodiment 2
[0048] Embodiment 2: Preparation of high performance rare earth tool steel
[0049] Its chemical composition and weight percentage are: carbon 0.20%, silicon 0.22%, manganese 0.30%, sulfur 0.015%, phosphorus 0.013%, chromium 1.20%, nickel 3.10%, molybdenum 0.420%, vanadium 0.020%, lanthanum cerium alloy 0.015%, The balance is iron.
[0050] The preparation method includes the following steps: (1) smelting, mixing pure iron, metal chromium, ferrochrome nitride, electrolytic nickel, ferrovanadium, ferrosilicon and ferromanganese according to the chemical composition and weight percentage of high-performance rare earth tool steel Put it into an intermediate frequency induction furnace and melt it into molten steel at a temperature of 1590-1650°C for 1 hour. Through the analysis of the spectral composition before the furnace, add the missing alloy charge until the molten steel composition requirements are met; (2) Refining, the molten steel is transferred to the refining furnace ...
Embodiment 3
[0051] Embodiment 3: Preparation of high performance rare earth tool steel
[0052] Its chemical composition and weight percentage are: carbon 0.25%, silicon 0.28%, manganese 0.33%, sulfur 0.009%, phosphorus 0.010%, chromium 1.10%, nickel 2.90%, molybdenum 0.410%, vanadium 0.010%, lanthanum cerium alloy 0.010%, The balance is iron.
[0053] The preparation method includes the following steps: (1) smelting, mixing pure iron, metal chromium, ferrochrome nitride, electrolytic nickel, ferrovanadium, ferrosilicon and ferromanganese according to the chemical composition and weight percentage of high-performance rare earth tool steel Put it into an intermediate frequency induction furnace and melt it into molten steel at a temperature of 1590-1650°C for 1 hour. Through the analysis of the spectral composition before the furnace, add the missing alloy charge until the molten steel composition requirements are met; (2) Refining, the molten steel is transferred to the refining furnace ...
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