CN1730702A - Vanadium-silicon-barium-ferrum composite alloy used as webbite and its production method - Google Patents

Abstract

The invention provides a vanadium-silicon-barium-ferrum composite alloy, which comprises (by weight percentage) Si 30-75%, Ba 3-25%, V 0.5-10%, balancing Fe and unavoidable impurities. The preparing process of the alloy includes deacidizing vanadium slag, dinas rock and heavy spar in furnace.

Description

Vanadium-silicon-barium-ferrum composite alloy and production method thereof as webbite

Technical field

The present invention relates to-kind of the alloying agents that is used to make steel, specifically, relate to-kind of silicon-barium-vanadium-ferrum composite alloy.

The invention still further relates to the production method of this alloy.

Background technology

Niobium is a kind of element that is highly profitable in steel, and it can make the crystal structure refinement of steel, thereby improves intensity, toughness, plasticity and the wear resistance of steel.It can reduce the timeliness susceptibility of steel and can improve the surface quality of steel ingot when containing vanadium in the steel and reach 0.03-0.05%.When containing vanadium in the steel and reach 0.01-0.04%, vanadium can improve the quench hot and the annealing performance of steel.

The common process of molten steel vanadium alloying is to use deoxidant element earlier at present, makes deoxidation of molten steel as aluminium, manganese, silicon etc., uses vanadium-iron alloy to make it alloying again.The shortcoming of this technology is: use conventional vanadium-iron alloy 1..The production technique more complicated of vanadium-iron: from vanadium slag, refine earlier Vanadium Pentoxide in FLAKES, with electro-silicothermic process its reduction is generated vanadium-iron then.The step of the extraction vanadous oxide of the technology of the production vanadium-iron of prior art comprises: operations such as pulverizing, roasting, leaching, precipitation, fusing and smelting, thereby it is very numerous and diverse, produce the objectionable impurities of contaminate environment such as a large amount of spent acid, waste water, waste residue in addition, its improvement is very difficult again.2. when after the deoxidation vanadium-iron being added molten steel, because reductor can not in time be evenly distributed in the molten steel, the vanadium in added vanadium-iron can not get the timely protection of deoxidant element, and the recovery rate of vanadium is not high as a result.

The object of the present invention is to provide a kind of silicon-barium-vanadium-ferrum composite alloy novel, that be used as the molten steel alloying agents.

Another object of the present invention is to provide the production method of this alloy that benefits environmental protection.

Summary of the invention

It is 30-75% silicon, 3-25% barium, 0.5-10% vanadium and the iron and the unavoidable impurities of surplus that silicon-barium of the present invention-vanadium-ferrum composite alloy contains weight percent.

Alloy of the present invention also can contain as required and is selected among manganese 5-70%, strontium 1-10%, calcium 1-15%, the aluminium 2-20% one or more.

The production method of above-mentioned alloy comprise proportioning is met above-mentioned alloying constituent raw material in the ore deposit hot stove step of reducing.

Silicon and barium that silicon-barium of the present invention-vanadium-ferrum composite alloy is contained play deoxidation.When this alloy melted in molten steel, silicon wherein and barium was at first with the oxygen removal in the molten steel around it, thereby protected the vanadium in this alloy, and the result improves the recovery rate of vanadium.Additional one or more the purpose that is selected from manganese, strontium, calcium, the aluminium is to satisfy the needs of different steel grades.

The production method of described composite alloy of the present invention is done the source of vanadium with vanadium slag, and therefrom directly restores vanadium.Vanadium slag is that vanadium-iron mineral intergrowth is carried last residue behind the de-iron.This method is obviously much simpler than the method for the production vanadium-iron alloy of prior art.Although the content of the alloy vanadium of producing with this method is lower, it is enough to produce low alloy steel with it.

Silicon-barium of the present invention-vanadium-iron alloy is a kind of composite alloy, and vanadium wherein is improved its recovery rate owing to be subjected to the protection of silicon and barium.The production technique of this alloy is directly reduced vanadium, and the result has reduced production cost.

Specifically describe the present invention below by embodiment.

Embodiment

Embodiment 1.

With 85 kilograms of silicas, 20 kilogram weight spar, 20 kilograms of vanadium slags, 70 kilograms of coke grains and 5 kilograms of steel cuttings meltings in the hot stove in ore deposit, the result obtains composition and is: silicon, 45%, barium, 10%, vanadium, 3%, iron, silicon-barium of 40%-vanadium-ferrum composite alloy.

Embodiment 2.

With the alloy smelting 20MV steel that derives from embodiment 1.Alloying process is very smooth, and the total oxygen content in the molten steel is 8-16PPm.

Claims (3)

1. vanadium-silicon-barium-ferrum composite alloy that is used for webbite, it contains the silicon that weight percent is 30-75%, the barium of 3-25%, the vanadium of 0.5-10% and the iron and the unavoidable impurities of surplus.

2. the vanadium-silicon-barium-ferrum composite alloy that is used for webbite according to claim 1 is characterized in that: it also contains and is selected among manganese 5-70%, strontium 1-10%, calcium 1-15%, the aluminium 2-20% one or more.

3. press the production method of the vanadium-silicon-barium-ferrum composite alloy that is used as webbite of claim 1 or 2, it comprises the raw material step of reducing in the hot stove in ore deposit that proportioning is met above-mentioned alloying constituent.