A preparation method of oxygen supersaturated precursor powder for nano-oxide dispersion strengthening steel

Abstract

The invention discloses a preparation method of oxygen supersaturated precursor powder for nano-oxide dispersion strengthening steel, comprising the following steps: (1) taking atomized chromium powder, atomized titanium powder, atomized tungsten powder, and atomized yttrium powder Powder, yttrium trioxide powder and atomized iron powder are mixed to obtain a composite alloy powder; (2) the composite alloy powder obtained in step (1) is added to a stirring ball mill, and after ball milling under the protection of argon, Obtaining oxygen supersaturated alloy powder; (3) placing the oxygen supersaturated alloy powder obtained in step (2) in an argon-protected environment for cooling treatment. The inventors found that the surface activity of the alloy powder can be effectively improved by adding atomized yttrium powder, and the wetting angle between the oxygen supersaturated precursor powder for nano-oxide dispersion strengthened steel and the matrix molten steel is less than 90°, which solves the problem of infiltration in molten steel. The agglomeration of alloy powder caused by poor wettability of alloy powder is beneficial to the rapid and uniform dispersion of oxygen supersaturated precursor powder in molten steel.

Description

technical field [0001] The invention relates to the technical field of preparation of special materials, in particular to a method for preparing an oxygen supersaturated precursor powder for nano-oxide dispersion strengthening steel. Background technique [0002] Dispersion strengthening is one of the strengthening methods of materials. Compared with strengthening methods such as solid solution strengthening, strain strengthening, precipitation strengthening, and fine grain strengthening, dispersion strengthening breaks through the limitation of material recrystallization and maintains the strengthening effect near the melting point. Oxide dispersion strengthened steel (ODS steel) is an important kind of dispersion strengthened material. The fine and uniformly distributed oxide disperse phase in ODS steel can not only significantly improve the high-temperature creep strength of the steel, but also serve as the nucleation site of tiny helium bubbles, so that the transmuted he...

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Problems solved by technology

However, since the density of oxides is smaller than that of molten steel, and the wetting angle with molten steel is large, directly added oxides are likely to segregate or float up to form slag due to density differences, and it is difficult to achieve uniform distribution of oxides

Patent CN107541666B (China) adds oxygen-saturated alloy powder prepared by mechanical alloying into molten steel, uses the characteristics of the density of the alloy powder and molten steel to achieve uniform mixing, and realizes the uniformity of nano-oxides by stirring and rapid cooling However, the density of the alloy added to the alloy powder is lower than that of pure iron, and there is still a certain difference between the density of the alloy powder and the molten steel, and the wettability between the alloy powder and the molten steel has not been significantly improved. According to National standard GB / T 22638 measures the infiltration angle of the supersaturated oxide dispersion alloy powder and T91 martensitic steel that its embodiment one step (1) makes and T91 martensitic steel 101 °, and the supersaturated oxide powder that embodiment two step (1) makes The wetting angle between oxide dispersed alloy powder and T91 martensitic steel is 97°