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Micro-alloying refined synthetic slag and preparation method thereof

A technology of refining synthetic slag and microalloying, which is applied in the field of iron and steel smelting and manufacturing, and can solve the problems of increasing production costs, increasing labor intensity of workers, and low grade of niobium ore

Inactive Publication Date: 2009-11-18
SHANDONG IRON & STEEL CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, practice has proved that these have not solved the problems of low yield of microalloying elements and high cost of steelmaking
[0005] In short, if the current refining synthetic slag does not contain microalloy components, the microalloying of steel needs to add expensive alloys separately. The disadvantages are: increased production costs, complicated processes, and increased labor intensity of workers
But the disadvantage is that the main components are vanadium concentrate or steelmaking vanadium slag and niobium concentrate or steelmaking niobium slag, and resources are scarce.
As we all know, titanium is the most abundant among microalloyed niobium, vanadium and titanium resources in China. However, the microalloying effect of titanium is obviously not as stable as that of niobium and vanadium. However, China's niobium resources are relatively scarce and concentrated. Brazil is the country with the largest niobium reserves, accounting for 94% of the world's total reserves, and more than 95% of China's identified Nb resources are mainly concentrated in Baiyun Obo, Inner Mongolia. The grade of niobium ore is low, and the paragenetic minerals are complex. The annual production capacity of Nb-Fe in my country is only 40-60 tons.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

preparation example Construction

[0016] The preparation method of microalloying refining synthetic slag, the steps are as follows:

[0017] Break vanadium-containing waste, lime, fluorite and silicon carbide into powders with a particle size of less than 0.5mm, mix them in proportion, melt them at 600-800°C, add nitrogen-enhancing agents during the pre-melting process, release the slag and cool it to room temperature, that is Microalloying refining synthetic slag is obtained.

[0018] Further preferably, the micro-alloying refining synthetic slag obtained in the above steps is added with an appropriate amount of binder to form a φ10-20mm spherical synthetic slag and dried at a low temperature of 30-50°C.

[0019] The binder is a conventional binder for pelletizing synthetic slag, which can be water glass, asphalt, or phosphate. The amount of the binder is not particularly limited in the present invention, and it can be used according to the prior art in the field. For example, the amount of the binder can be...

Embodiment 1

[0026] Micro-alloying refining synthetic slag, raw material composition weight parts are: 20 parts of vanadium-containing waste material, 60 parts of lime, 2 parts of fluorite, 10 parts of silicon carbide, and 8 parts of nitrogen-enhancing agent silicon nitride balls.

[0027] Preparation:

[0028]Break the vanadium-containing waste, lime, fluorite and silicon carbide into powders with a particle size of less than 0.5mm, mix them in proportion, melt them at 700°C, add nitrogen-enhancing agent during the pre-melting process, release the slag and cool it to room temperature, and then refill it. 8% of the total mass of synthetic slag is binder water glass, resulting in φ10-20mm spherical synthetic slag, which is then dried at a low temperature of 40°C, and the moisture content of the product should be lower than 5%wt.

Embodiment 2

[0030] Micro-alloying refining synthetic slag, raw material composition weight parts are: 15 parts of vanadium-containing waste material, 65 parts of lime, 1.5 parts of fluorite, 10 parts of silicon carbide, 6 parts of nitrogen-enhancing agent silicon nitride ball.

[0031] Preparation:

[0032] Break the vanadium-containing waste, lime, fluorite and silicon carbide into powders with a particle size of less than 0.5mm, mix them in proportion, melt them at 750°C, add nitrogen additives during the pre-melting process, release the slag and cool it to room temperature, and then refill 6% of the total mass of the synthetic slag is binder water glass to form a φ10-20mm spherical synthetic slag and dry it at a low temperature of 50°C. Product moisture should be less than 5%wt.

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Abstract

The invention relates to a micro-alloying refining synthetic slag and a process for preparation, belonging to the steel melting technology field. The invention comprises raw material in the following parts that 10-20 parts of vanadium-containing waste, 50-70 parts of lime, 1-2 parts of fluorite, 5-15 parts of silicon carbon and 2-10 parts of nitrogen absorption agent. The process comprises integrating vanadium waste, lime, fluorite and silicon carbon into powder whose grain size is smaller than 0.5mm, then mixing according to proportion, melting with temperature of 600-800 DEG C, adding in nitrogen absorption agent in the process of premelting, taking out melted slag which is cooled down to constant temperature, thereby obtaining micro-alloying refining synthetic slag, and also adding right amount of binding agent to obtain phi 10-20mm ball synthetic slag which is dried with low temperature. Compared with the original synthetic slag, the property of micro-alloying refining synthetic slay of the invention increases over 20% in desulfuration, reduces over 10 minutes in refining time of the refining furnace thereby reaching below 30 minutes, and smelting consumption reduces 20KWh in one ton, and the service life of aluminum 1kg ladle in one ton steel increases 8-12 times.

Description

technical field [0001] The invention belongs to the field of iron and steel smelting and manufacturing, and in particular relates to a synthetic slag with functions of molten steel microalloying and out-of-furnace refining and a preparation method thereof. Background technique [0002] With the development of metallurgical technology, the performance requirements of steel are getting higher and higher, which requires that the molten steel has a high degree of purity. At the same time, the molten steel is alloyed by means of microalloying. At present, the addition of niobium, vanadium, titanium and other elements in the production of micro-alloyed steel is done by adding single-component alloys such as: ferroniobium, ferro-titanium, and ferro-vanadium to molten steel. Each of these alloys has certain disadvantages. Some of the elements have a strong chemical affinity with the oxygen in the molten steel, so when they are added to the molten steel, most of them participate in d...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C21C7/076
CPCY02P10/20
Inventor 许荣昌蒋鲤平王洪军
Owner SHANDONG IRON & STEEL CO LTD
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