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Method for preparing series titanium-iron alloy by smelting titanium raw material

A technology of ferro-titanium alloy and titanium raw material, which is applied in the field of ferroalloy smelting, can solve the problems of high impurity content and cannot produce high ferro-titanium, and achieve the effects of improving sulfur and phosphorus removal ability, inhibiting reverse reaction, and promoting welding and casting

Active Publication Date: 2007-11-28
攀枝花市银江金勇工贸有限责任公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

At the same time, the invention also solves the technical problem of producing high-iron-titanium alloy by smelting vanadium-titanium magnetite with high impurity content in Panxi area, thereby breaking the myth that high-impurity ferro-titanium cannot be produced due to the high impurity content of Panxi vanadium-titanium magnetite , to fill the domestic gap

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0042] A kind of preparation method of FeTi30 alloy, it is characterized in that according to following process step, add the auxiliary material of following weight proportion in 100Kg titanium raw material that titanium content is 45% in Panxi area:

[0043] 58Kg of metal aluminum, 3.5Kg of iron powder, 15Kg of calcium carbonate, 12Kg of potassium chlorate, 5Kg of calcium-sodium treatment agent mixed with the same amount of calcium carbonate and soda ash, iron oxide and iron fine powder with a total iron content of 99% mixture.

[0044] The specific process steps are as follows:

[0045] The raw materials and various auxiliary materials were weighed according to the above weight ratio, and the titanium raw materials, calcium carbonate, and calcium-sodium series treatment agents in Panxi area were sent into the rotary furnace, and after 20-25 minutes, they were quickly preheated to 800 °C, and then The connecting bin is sent into the mixer and mixed evenly, and then the mixtu...

Embodiment 2

[0050] A preparation method of FeTi40 alloy is characterized in that according to the following process steps, 100Kg of titanium raw materials in Panxi area with a titanium content of 60% is added with auxiliary materials in the following weight ratio:

[0051] Metal aluminum 50Kg, magnesium powder 2.5Kg, calcium carbonate: fluorite=2: 1 mixture 8Kg, potassium chlorate 18Kg, by the weight ratio of calcium carbide: soda ash=3: 2 the sodium-calcium series treatment agent that mixes 4.5Kg, contains Iron concentrate with 80% total iron content.

[0052] The specific process steps are as follows:

[0053] The raw materials and various auxiliary materials are weighed according to the above weight ratio, and the titanium raw materials, calcium carbonate, and calcium-sodium treatment agent in Panxi area are sent into the rotary furnace. The connecting bin is fed into the mixer and mixed evenly, and then metal aluminum, iron powder, magnesium powder and potassium chlorate are sequenti...

Embodiment 3

[0058] A preparation method of FeTi50 alloy is characterized in that according to the following process steps, 100Kg of titanium raw materials in Panxi area with a titanium content of 68% is added with auxiliary materials in the following weight ratio:

[0059] 35Kg of metal aluminum, 1.5Kg of iron powder, 10Kg of fluorite, 8Kg of potassium chlorate, 2.5Kg of calcium-sodium series treatment agent mixed with the same amount of calcium carbonate, soda ash, and calcium carbide, and iron oxide with a total iron content of 75%. A mixture of fine iron powder.

[0060] The specific process steps are as follows:

[0061] Weigh the raw materials and various auxiliary materials according to the above weight ratio, put the titanium raw materials, fluorite, and calcium-sodium treatment agent in Panxi area into the rotary furnace, preheat quickly to 700 ° C after 20-25 minutes, and then The connecting bin is sent into the mixer and mixed evenly, and then the mixture of metal aluminum, iro...

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PUM

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Abstract

A method to produce a series of ferrotitanium by smelting the titanium material in Panxi area. The technology steps are as following: the titanium material in Panxi area, calcareous metallurgy accessories and calcium-sodium treatment reagent will be delivered into the revolving burner, they will be warm-up fast, and then will be delivered into blendor by connecting barn to be uniformly mixed. And then aluminium, iron system material, auxiliary reducers and potassium chlorate will be orderly added in from the batch bin, when the material and the auxiliary material in the blendor have been uniformly mixed, they will drop into the smelting furnace, which has been warmed up, by the connecting barn, the igniter will be added in, and the inhibiting agent will be added when the reaction get over for about 2-3 minutes, they will be cooled for 20-40h, and at last the residue and the ferrotitanium will be separated. The ferrotitanium product will enter warehouse after being checked and paclaged. The material source of this patent is assured, and the production technology is on the safe side, the product quality of the ferrotitanium made by it is stable, and it fulfills the different needs of all kinds of steel industry, so it the myth that the Panxi vanadium-titinium magnetite can not produce high ferrotitanium because the impurity of it is high, and it fills up the blank in our country.

Description

technical field [0001] The invention relates to a ferroalloy smelting method, specifically, the invention relates to a method for producing a series of ferro-titanium alloys by smelting titanium raw materials in Panxi area. Background technique [0002] Titanium is an important alloying element and deep deoxidation additive in steel production, known as the "third metal". Titanium can improve the structure of steel, improve the performance of steel, and increase the wear resistance and tensile strength of steel. Ferro-titanium is the first choice for the production of chain steel, anchor chain, shipbuilding steel, stainless steel, welding rods, electronics, and military products. important raw material. Due to the strong combination of titanium and oxygen and high melting point under high temperature conditions, if titanium metal is directly added in the iron and steel smelting process, not only the yield is low, but also the waste is serious and the cost is increased. It m...

Claims

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Application Information

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IPC IPC(8): C22C1/02C21C7/06C22C38/14C22C30/00
Inventor 何金勇杨保祥宋国菊张森
Owner 攀枝花市银江金勇工贸有限责任公司
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